Featuring

September 26-30, 2010 • Anaheim Marriott • Anaheim, California, USA

Congress General Chair: Xinbing Liu, Panasonic Boston Laboratory, Cambridge, MA, USA

ADVANCE PROGRAM

Featuring

Highlights for 2010

• Laser Materials Processing Conference

• Charles Townes to receive LIA Lifetime Achievement Award

• Laser Microprocessing Conference • Nanomanufacturing Conference

• NEW! Laser Solutions Short Courses scheduled to start Sunday, September 26

• Poster Presentation Gallery • Laser Solutions Short Courses • Business Forum and Panel Discussion • Networking with Industry Leaders & End Users

Presented By:

• 2010 Arthur L. Schawlow Award winner U.S. Secretary of Energy, Steven Chu

Printing Sponsored By:

Register Online by August 5 th and receive $25 off Early Bird Full Conference Registration

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ICALEO® Advance Program

ICALEO Advance Program

Congress General Chair Welcome

Table of Contents

Xinbing Liu

Plenary Session...........................................................5 Receptions and Special Events..................................5 Closing Plenary Session.............................................7 LIA Annual Meeting & Awards Luncheon..................8 Laser Materials Processing Conference................... 10 Laser Microprocessing Conference......................... 14 Business Forum & Panel Discussion......................... 17 Nanomanufacturing Conference............................. 18 Poster Presentation Gallery...................................... 19 About LIA.................................................................. 21 Laser Solutions Short Courses.................................22 Laser Industry Vendor Reception.............................23 General Information & Registration.........................25 Conference Agenda.................................................26

Congress General Chair: Xinbing Liu Panasonic Boston Laboratory, Cambridge, MA, USA Laser Materials Processing Conference Chair: Klaus Löffler TRUMPF Laser + Systems GmbH, Ditzingen, Germany Laser Microprocessing Conference Chair: Kunihiko Washio Paradigm Laser Research Limited, Tokyo, Japan Nanomanufacturing Conference Co-Chairs: Yongfeng Lu University of Nebraska-Lincoln , Licoln, NE, USA Xianfan Xu Purdue University, West Lafayette, IN, USA Laser Solutions Short Courses Chair: Stefan Kaierle Fraunhofer ILT, Aachen, Germany Business Forum & Panel Discussion Co-Chairs: Neil Ball Directed Light Inc., San Jose, CA, USA Sri Venkat Coherent Inc., Santa Clara, CA, USA LIA President: Nathaniel Quick LIA Executive Director: Peter Baker LIA Director of Conferences: Gail Loiacono

Panasonic Boston Laboratory Cambridge, MA, USA Hello and welcome! As we celebrate the 50th anniversary of the invention of the laser that created the entire science, technology, and industry in which we work in, the 29th International Congress on Applications of Lasers & Electro-optics (ICALEO® 2010) again comes to the west coast, to be held at the Anaheim Marriott Hotel in Anaheim, CA. Continuing the tradition that began 28 years ago, the ICALEO Program Committee has put together yet another strong program with a high number of contributions from researchers from both academia and industries all over the world in areas of traditional and emerging laser applications. One of the key benefits ICALEO offers has always been the great social atmosphere and networking opportunities for the participants. As the overall economy begins its recovery, opportunities abound for new ideas, technologies, and products both in established and emerging fields of macro-, micro-, and nano-laser processing. Don’t miss this unique opportunity to present and hear the latest advances in the field of laser applications, meet old and new colleagues and friends, and exchange results and ideas. Like the previous 3 years, ICALEO 2010 will offer three conferences covering an expanding array of laser applications. The Laser Materials Processing Conference (LMP), organized by Klaus Löffler, continues its theme on high speed, efficient, and flexible macroscopic laser processing applications and equipment and systems. Sessions include challenges of high brightness lasers, hybrid laser welding, materials and processes of laser metal deposition, and direct laser manufacturing. The Laser Microprocessing Conference (LMF) will be chaired again by Kunihiko Washio and will cover processes and systems for microscopic applications, especially those that take advantage of the small feature sizes and high precision offered by short wavelength and ultrafast lasers. LMF will feature sessions on surface microstructuring and modification, micro-joining, pulse-shape & tailored-beam control, and laser processing of silicon solar cells. This year’s Nanomanufacturing Conference will be co-chaired by Yongfeng Lu and Xianfan Xu, with sessions on Direct Laser Writing in Nano Fabrication, Nano Fabrication Using Ultrafast Lasers, and Direct Growth of Nano Structure Using Lasers. This year’s plenary session will feature an environmental theme, with a keynote given by Jeff Morris, National Program Director for Nanotechnology Office of Research and Development, US Environmental Protection Agency. Other plenary session presentations will cover progress on laser and processing technologies used in various fields. Neil Ball and Sri Venkat will co-organize this year’s business forum and panel discussion, a popular feature at ICALEO. The invited panelists will discuss the status of the laser applications industry and trends. The panel discussion portion following presentations by laser business leaders will offer participants opportunities to interact with industry experts and voice their own views. Chaired by Stefan Kaierle, the Laser Solutions Short Courses are ideal for those who want to receive a complete overview on the state-of-the-art in specific areas of interest to participants. The vendor reception is another popular venue for attendees to learn about the latest products from the representatives of the industry working in the laser applications market and those serving the market, and will be a valuable networking opportunity. To commemorate the 50th year of the invention of the laser, ICALEO is planning to have a special symposium with academic and industry veterans as speakers, reflecting on the history, present, and future of laser applications. Anaheim, located in Southern California between Los Angeles and San Diego, is filled with plenty of things to see and do. Warm sunshine, swaying palm trees and beautiful vistas characterize this city. Anaheim is clearly an ideal location to experience ICALEO and more with colleagues, friends and family. With all these great features and opportunities to offer, I would like to extend a warm invitation to all to come and take part in ICALEO 2010. See you in Anaheim! Xinbing Liu ICALEO 2010 General Chair +1.407.38 0.1553

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Plenary Sessions & Receptions

Plenary Session Monday, September 27 • 9:00am

Session Chair: Xinbing Liu, Panasonic Boston Laboratory, Cambridge, MA, USA

Energy and environmental issues very often go hand in hand (witness the current oil spill in the Gulf of Mexico). Last year’s ICALEO® plenary session focused on alternative green energy technology to reduce our society’s dependence on fossil fuel, which in turn reduces the environmental impact of CO2 emission and global warming. This year, we are pleased to organize a plenary session to highlight environmental protection technologies. The keynote speech will be given by Jeff Morris, National Program Director for Nanotechnology Office of Research and Development, U.S. Environmental Protection Agency, titled “Thinking Strategically About Nanotechnology EHS Research: An EPA Perspective.” Mr. Morris will present EPA’s viewpoint on being smart about the development and deployment of new technologies. Following Mr. Morris’ keynote, Prof. Takunori Taira from the Institute for Molecular Science (Japan), will present a talk on laser ignition of combustion engines for cleaner vehicles, which should be a very interesting and entertaining. Dr. Jurgen Daniel, Senior Scientist at Palo Alto Research Center, will talk about solar technology activities in California, the site of this year’s ICALEO. Finally, Dr. Dietmar Kracht, Director of Laser Zentrum Hannover (Germany), will give a presentation on the processing of carbon fiber reinforced plastic (CFRP). Please mark your calendar to attend the opening plenary session of ICALEO 2010! INVITED PLENARY SPEAKERS: Keynote Presentation: Thinking Strategically About Nanotechnology EHS Research: An EPA Perspective Jeff Morris, US Environmental Protection Agency Laser Ignition of Combustion Engines for Cleaner Vehicles Takunori Taira, Laser Research Center for Molecular Science

Solar in California: Policy and Technical Overview Jurgen Daniel, Palo Alto Research Center (PARC) Laser Processing of Carbon Fiber Reinforced Plastic (CFRP) Dietmar Kracht, Laser Zentrum Hannover e.V.

Welcome Celebration

Session Chair & Speaker Appreciation Breakfast

Sunday, September 26 • 4:30pm

Monday, September 27 • 7:15am Session Chairs, Speakers, Short Course Instructors and Poster Presenters are invited to the Session Chair & Speaker Appreciation Breakfast on Monday, September 27 at 7:15am. Each presenter will be seated within their session to meet the session chairs and fellow presenters. Audio-Visual tips will be provided along with any last minute updates and an overview of the week. Please plan to arrive in time to attend this important breakfast.

Come join the fun on Sunday and enjoy live entertainment by your musical colleagues from the laser industry. Prizes will be raffled. This is a great opportunity for new attendees to meet “old timers” and for everyone to socialize and interact. Sponsored by:

President’s Reception Monday, September 27 • 5:00pm The opening day of ICALEO features an evening reception hosted by LIA President Nathaniel Quick. Meet the LIA Executive Committee, Board of Directors, ICALEO General Chair Xinbing Liu and Conference Chairs Klaus Löffler, Kunihiko Washio, Yongfeng Lu, Xianfan Xu, Stefan Kaierle, Neil Ball and Sri Venkat. Join the LIA staff and mingle with old friends at this exciting venue. This will be an unforgettable evening! Sponsored by: +1.407.38 0.1553

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ICALEO® Advance Program 3/11/10 10:43:45 A

Plenary Sessions & Receptions

Closing Plenary Session - Joint Session (LMP & LMF) Thursday, September 30 • 1:30pm

Session Chair: Xinbing Liu, Panasonic Boston Laboratory, Cambridge, MA, USA

Like every other laser-related conference this year, ICALEO is also celebrating the 50th anniversary of the invention of the laser. To mark 50 years of this truly paradigm changing scientific and technological discipline, we are organizing a special closing plenary session. We are pleased to announce that four laser industry veterans with distinguished careers and long association with ICALEO will be speaking at the closing plenary session: Dr. Kumar Patel, inventor of carbon dioxide laser and winner of LIA’s Schawlow Award in 1984, Dr. David Sliney, a pioneer in laser safety and laser-human interactions and Schawlow Award recipient in 2005, Dr. Marshall Jones, early industrial laser applications developer and Schawlow award winner in 2007, and Bill Lawson, a veteran entrepreneur in employing laser processing technology in production. They will share their vision and outlook on the past, present, and future of laser science, technology, and industry. They will also share their personal stories – both triumphs and struggles – of working with the laser with the audience. This will be a rare opportunity to hear about laser history directly from the people who made it. Plan well ahead and don’t miss this closing plenary session! INVITED CLOSING PLENARY SPEAKERS: Lasers Then and Now – Promises, Progress and the Future (C201) Kumar Patel, Pranalytica, Inc Laser Safety - Past, Present and Future (C202) David Sliney, Consulting Medical Physicist

A Memorable Journey of Laser Technology (C203 ) Marshall Jones, GE Global Research How the Past Might Help Us Understand What the Future Opportunities Might Be for Laser Processing (C204) William Lawson, New Tech Development

Special Thanks to the ICALEO® International Advisory Board David Belforte, Industrial Laser Solutions, Sturbridge, MA, USA

Jyoti Mazumder, CLAIM, Univ. of Michigan, Ann Arbor, MI, USA

Eckhard Beyer, Fraunhofer IWS, Dresden, Germany

Minoru Obara, Keio Univ., Yokohama-Shi, Japan

Jan Dubowski, Univ. of Sherbrooke, Sherbrooke, QC, Canada

Andreas Osterdorf, Ruhr-Univ. Bochum, Bochum, Germany

Walter Duley, Univ. of Waterloo, Waterloo, ON, Canada

Rajesh Patel, Spectra Physics, Division of Newport Corporation, Mountain View, CA, USA

Remy Fabbro, LALP (CNRS), Paris, France Mike Green, Association of Laser Users, Abingdon, Oxon, Great Britain Anthony Hoult, IPG Photonics, Oxford, MA, USA Marshall Jones, GE Global Research, Niskayuna, NY, USA

Henry Peng, GE (China) Research & Development Center Co., Shanghai, People’s Republic of China William Steen, The Univ. of Liverpool, Herts, Great Britain Minlin Zhong, Tsingshua Univ., Beijing, People’s Republic of China

Student Paper Award Contest Announcing the 12th Annual ICALEO® Student Paper Award! LIA appreciates the importance of student contributions to ICALEO by offering the opportunity to have their work recognized with this award. Students with accepted papers will be judged by an international panel on the following criteria: Originality of Topic/Material presented, Scientific and Technical Merit and Presentation Quality. Professors do not judge their own student’s papers. Prize winners will be notified after the conclusion of ICALEO and will be announced through an article in the LIA TODAY newsletter featuring conference highlights.

Sponsored by:

Cash awards will be presented to 1st, 2nd and 3rd place winners. 1st place paper will be published in the Journal of Laser Applications® (paper will go through the peer review process).

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LIA Annual Meeting & Awards Luncheon Wednesday, September 29

The 2010 Arthur L. Schawlow Award is presented to: Steven Chu, Ph.D, U.S. Secretary of Energy Laser Institute of America first presented the Arthur L. Schawlow Award in 1982 to recognize individuals who have made distinguished contributions to applications of lasers in science, industry or education. The Award presentation consists of a silver medal, a $2,000 cash award and a citation. Awardees become Lifetime Members of LIA. Dr. Steven Chu is co-winner of the 1997 Nobel Prize in physics for development of methods to cool and trap atoms with laser light. Laser pioneer Schawlow nominated Chu for the Nobel while the two were colleagues at Stanford University. He was appointed U.S. Secretary of Energy on December 15, 2008, while Director of the Department of Energy’s Lawrence Berkley National Lab and Professor of physics and molecular and cell biology at the University of California, Berkeley. “Steven has blazed new trails as a scientist, teacher and administrator, and has recently led the Berkeley National Laboratory in pursuit of new alternative and renewable energies,” said President Barack Obama. About Arthur L. Schawlow Professor Schawlow received a Nobel Prize for Physics in 1981 for “his contribution to the development of laser spectroscopy.” He co-authored, along with Professor Charles H. Townes, the book Microwave Spectroscopy, and the first paper describing optical masers. For this latter work, the pair were awarded the Stuart Ballantine Medal by the Franklin Institute (1962), and the Thomas Young Medal and Prize by the Physical Society and Institute of Physics (1963). Professor Schawlow was also awarded the Morris N. Liebmann Memorial Prize by the Institute of Electrical and Electronic Engineers (1964). As the first honoree in 1982 of this award, it is fitting that LIA’s highest achievement award is given in Professor Schawlow’s name.

Celebrating the 50th Anniversary of the Laser From the original ”maser” being invented by Charles H. Townes in 1951 and Theodore Maiman firing the first laser in 1960, the advances in laser technology have been nothing short of amazing. Once coined as a ”solution looking for a problem,” lasers have found thousands of uses in a broad array of applications in today’s society. Industry, defense, research and medicine have all benefited substantially by the maximum efficiency and minimum costs that laser use provides. Lasers are expanding to fields never before imaginable. Holographs, new energy sources and even space exploration are now involving lasers in their growth. Airborne laser defense systems are now being developed by the U.S. Air Force. The Lawrence Livermore National Laboratory is currently trying to solve the global energy crisis by harnessing the energy created by a ”ministar,” which will be produced by the largest laser in the world. The Laser Institute of America is here to celebrate and appreciate the 50 years of growth and prosperity of the laser. We look forward to seeing what this technology will bring us in the next 50 years, and the LIA will be there to continue to foster lasers, laser applications and laser safety worldwide.

Come to ICALEO 2010 and join us in celebration! Laser Applications – Powering the Recovery. +1.407.38 0.1553

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Award Sponsored by:

Luncheon Sponsored by:

LIA Annual Meeting & Awards Luncheon Wednesday, September 29

The 2010 LIA Lifetime Achievement Award is presented to: Charles Townes, Ph.D The Laser Institute of American (LIA) will present its first Lifetime Achievement Award to laser pioneer Dr. Charles Townes. The award recognizes his contribution to the development of the first laser 50 years ago and his lifetime body of work. Townes, 94, won the Nobel Prize for physics in 1964 “for fundamental work in the field of quantum electronics, which has led to the construction of oscillators and amplifiers based on the maser-laser principle,” according to the Nobel committee. The then-provost and professor of physics at the Massachusetts Institute of Technology shared the award with Nicolay Basov and Aleksandr Prokhorov of the USSR. Their work was among the critical early steps in the development of the laser, which is 50 years old this year. Born in Greenville, S.C., on July 28, 1915, Townes — professor emeritus of the University of California, Berkeley, since 1986 — shares a patent for the laser with his late brother-in-law and fellow Nobel winner Arthur L. Schawlow. The pair collaborated on their research at Columbia University and Bell Labs in New York City and together wrote the seminal book Microwave Spectroscopy in 1955 and the 1958 paper “Infrared and Optical Masers.” LIA honored Schawlow, who married Townes’ sister, Aurelia, in 1951, with an award in 1982 that now bears his name. In the November issue of the Journal of Laser Applications, Townes recounted how in classical professor fashion, he was wrestling with theoretical issues relating to translating his work on microwave amplifiers (masers) to shorter visible wavelengths. Attending a conference in Washington D.C., he woke up early and took a walk. While sitting on a park bench the inspiration came to him and he scribbled the vital equations on an envelope he had in his pocket! The award will consist of a special citation and a cash prize. In addition, Dr. Townes will become a fellow and life member of LIA. He will make a special address during the awards luncheon.

Dr. Charles Townes with a ruby maser amplifier for radio astronomy. The cylindrical tube is a dewar for liquid helium in which the maser is immersed. The entire apparatus was mounted at the focus of the 50’ parabolic dish at the naval research laboratory and represented the first successful use of masers for radio astronomical work. The picture was taken sometime in 1957.

Photograph Courtsey of Alcatel-Lucent Bell Labs

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Laser Materials Processing Conference Conference Chair: Klaus Löffler, TRUMPF Laser + Systems, GmbH, Ditzingen, Germany We are looking back on a difficult 12 months between last year’s ICALEO and today. The economy took a huge hit and is just beginning to recover. There are signs that the year of the 50th anniversary of the laser will be a bright year. The laser development engineers have once again developed more powerful lasers with further improved brightness and further enhanced specifications. We are now in a position to have industrial laser light available in many wavelengths. This will open up a new dimension in application development. Over the course of the next few years, we will deal with “Tailored Light” instead of a simple laser beam, while developing new exciting effects in material laser processing. With all of these new tools the laser application development will have the means of enabling and supporting the “Mega Trends” for the future. There has been a huge increase of wall plug efficiency in the last few years - in some cases by a factor of 10 – this shows the potential of the laser technology. However, this is just a small piece of the puzzle. The lasers available now will enable us to increase the efficiency of products produced. This is all about timing, even in research and development. With the 50th anniversary of the laser, the time is right to regain momentum even for one of the first laser applications, “Laser Cladding.” This year’s Laser Material Processing (LMP) Conference has once again experienced a high number of submitted abstracts. This is especially exciting with the prospective of opening up new markets, thus increasing the number of abstracts outside the traditional application fields. I welcome all the presenters and attendees to the ICALEO 2010 LMP Conference for fruitful discussions and an open exchange of ideas.

LMP Session 1: High Brightness Lasers, Challenges Monday, September 27 • 1:30pm Session Chair: Rudolf Weber, IFSW, Univ. of Stuttgart, Stuttgart, Germany Online Focus Shift Measurement in High Power Fiber Laser Welding (101) Daniel Reitemeyer, Thomas Seefeld, Frank Vollertsen, BIAS Bremer Institut für angewandte Strahltechnik GmbH Comparison 1 Micron Transmissive Optical Materials for High Power Lasers (102) Gary Herrit, Stephen Rummel, II-VI Incorporated Latest Research Results with High Power FS-Laser Optics with Minimized Focus Shift (103) David Havrilla, TRUMPF Inc. Developments in All-Reflective High-Power 1µ Laser Beam Delivery (104) Thomas Kugler, Laser Mechanisms, Inc. Characteristics of Disk Laser-Induced Plasma (105) Seung Lee, Univ. of Michigan Reducing Spatters Using Azimuthally Polarized Laser Light (106) Philipp Gaertner, Peter Berger, Rudolf Weber, Institut für Strahlwerkzeuge Utilization of Quantitative Measurement Categories for Process Monitoring (107) Peter Berger, Thomas Graf, Jan Weberpals, Institut für Strahlwerkzeuge

LMP Session 2: Hybrid Laser Welding Applications Monday, September 27 • 1:30pm Session Chair: Dave Farson, The Ohio State Univ., Columbus, OH, USA Utilizing of Laser-GMA Hybrid Welding in Industrial Application (201) Jukka Siltanen, Rautaruukki Oyj Weld Seam Formation and Mechanical Properties of Girth Welds Performed with Laser-GMA-Hybrid Process on Pipes of Grade X65 (202) Sergej Gook, Andrey Gumenyuk, Michael Rethmeier, BAM, Federal Institute for Materials Research and Testing

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Program Committee: Magdi Azer, GE Global Research, Niskayuna, NY, USA Milan Brandt, RMIT Univ., Victoria, Australia Paul Denney, CCAT, East Hartford, CT, USA Rémy Fabbro, LALP (CNRS), Paris, France Clive Grafton-Reed, Rolls-Royce, Derby, Great Britain Bo Gu, IPG Photonics Corporation, Oxford, MA, USA Seiji Katayama, Osaka Univ., Osaka, Japan Ingomar Kelbassa, RWTH Aachen Univ, Aachen, Germany Lin Li, The Univ. of Manchester, Manchester, Great Britain Edward Metzbower, eamweld LLC, Alexandria, VA, USA William O’Neill, Univ. of Cambridge, Cambridge, Great Britain Juan Pou, Univ. de Vigo, Vigo, Spain Stanley Ream, EWI, Columbus, OH, USA Michael Rethmeier, BAM, Berlin, Germany Antti Salminen, Lappeenranta Univ. of Technology, Lappeenranta, Finland Rui Vilar, Instituto Superior Técnico, Lisboa Codex, Portugal Rudolf Weber, IFSW Stuttgart, Stuttgart, Germany Hydra and Lupus - the Exotics Among the Hybrid Welding Methods (203) Uwe Reisgen, Simon Olschok, Stefan Jakobs, Michael Mavany, RWTH Aachen Univ. - Welding and Joining Institute (Isf) The Characteristics of Molten Pool and Temperature Field During the Hybrid Laser-Arc Welding of Al-Li Alloy (204) Aiqin Duan, BAMTRI Process Monitoring and Control During Hybrid Laser-Arc Welding of Medium Section Steel Sheets (205) Wolfgang Fiedler, Stefan Kaierie, Alexander Drenker, Holger Thom, Fraunhofer ILT Spectroscopic Diagnostics on Arc Plasma in Laser-TIG Double-Side Welding of Aluminium Alloy (206) Zhao Bang, Harbin Institute of Technology Usability and Guidelines for Hybrid Laser-Arc Welding of Ship Building Steel (207) Esa Lappalainen, Tuomas Purtonen, Antti Salminen, Lappeenranta Univ. of Technology

LMP Session 3: Laser Drilling Monday, September 27 • 1:30pm Session Chair: Paul Denney, Connecticut Center for Advanced Technology, Inc., East Hartford, CT, USA Influence of Spot Size on Hole Morphology (301) Matthieu Schneider, CNRS/LALP Laser Drilling in Ablation Regime: Study of Drilling Velocity with Decoupled Q-Switch Laser (302) Laurent Berthe, CNRS/Laboratoire Procédés et Inginièrie en matériaux et Mécanique; Florian Carro, Maryse Muller, Matthieu Schneider, CNRS/Pimm Numerical Investigation of the Effect of the Pulse Format on Drilling Performance (303) Joonghan Shin, CLAIM, The Univ. of Michigan High Speed Production of Zero Tapered, Low Recast Holes in Ni-Alloys by a Continuous Wave Single Mode Fibre Laser Drilling (304) Clive Grafton-Reed, Rolls Royce; Stephen Leigh, Lin Li, Zhu Liu, Kursad Sezer, The Univ. of Manchester

Laser Materials Processing Laser Percussion Drilling of Coated and Uncoated Aerospace Materials with a High Beam Quality and High Peak Power Lamp Pumped Pulsed Nd: Yag Laser (305) Mohammed Naeem, GSI Group, Inc. - Laser Division Drilling of Aluminum with High Power Q-Switched Lasers (306) Leonard Migliore, George Nazary, Coherent, Inc. Laser Drilling of Nickel Alloy: Effect of Process Gases on Quality and Drilling Time (307) Mostafa Okasha, Huseyin Sezer, Paul Mativenga, Lin Li, The Univ. of Manchester

Observation of State of Gas and Particle Matter Above Specimen During High Brightness Laser Welding (509) Masami Mizutani, Joining and Welding Research Institute, Osaka Univ.

LMP Session 7: Laser Cutting I Tuesday, September 28 • 1:00pm Session Chair: Dirk Petring, Fraunhofer ILT, Aachen, Germany

Title - TBA (Invited Presentation) (401) Ingomar Kelbassa, RWTH Aachen Univ. Wavelength Optimization for Laser Metal Deposition (402) David Havrilla, David Locke, TRUMPF Inc. Comprehensive Predictive Modeling and Parametric Analysis of Direct Laser Deposition Processes (403) Shoayi Wen, Yung Shin, Purdue Univ. An Iterative, Energy-Mass Balance Model for Laser Metal Deposition (404) M Naveed Ahsan, Andrew J Pinkerton, Manufacturing and Management Group, The Univ. of Manchester Characterization of Crack Propagation Path in Laser Clad Coating Under Multi Axial Fatigue Loading (405) Novana Hutasoit, Shoujin Sun, Ryan Cottam, IRIS - Swinburne Univ. of Technology; Aaron Blicblau, Faculty of Engineering and Industrial Science, Swinburne Univ. of Technology; Milan Brandt, School of Aerospace, Mechanical and Manufacturing Engineering, RMIT Univ. An Automated Procedure for Optimization of Solidification and Residual Stresses in Laser Additive Repair of Aerospace Components (406) Anil Chaudhary, Matthew Keller, Seth Wilhelm, Applied Optimization, Inc.; Mark Norfolk, Edison Welding Institute, Inc. X-Ray Analysis of Pore Formation in Direct Metal Deposition and Its Causes (407) M Naveed Ahsan, Andrew J Pinkerton, Manufacturing and Management Group, The Univ. of Manchester; Phil A Carroll, L P W Technology Ltd In-Situ Spectroscopic Analysis of Laser Induced Plasma for Monitoring of Composition During Direct Metal Deposition Process (408) Lijun Song, CLAIM, The Univ. of Michigan

Laser Cutting Basics, State-of-the-Art and Research Topics (Invited Presentation) (701) Dirk Petring, Fraunhofer ILT Simultaneous Sub Second Laser Welding of Polymers with Diffractive Optics (702) Petri Laakso, Saara Ruotsalainen, Hannu Minkkinen, VTT; Tuomas Purtonen, Lut; Veli Kujanpää, VTT / Lut Effects of Laser Beam Modes on an Initial Stage of Laser-Material Interaction During Laser Cutting (703) Dongkyoung Lee, Univ. of Michigan A Comparative Study on Fusion Cutting with Disk and CO2 Lasers (704) Leonardo Daniele Scintilla, Luigi Tricarico, Politecnico Di Bari - Dipartimento Di Ingegneria Meccanica E Gestionale Dimeg; Eckhard Beyer, Fraunhofer Institut für Werkstoff- Und Strahltechnik Iws / Technische Universitaet Dresden, Institut für Oberflaechen- Und Fertigungstechnik Iof, Lehrstuhl für Laser- Und Oberflaechentechnik Lot; Achim Mahrle, Technische Universitaet Dresden, Institut für Oberflaechen- Und Fertigungstechnik Iof, Lehrstuhl für Laser- Und Oberflaechentechnik Lot; Thomas Himmer, Andreas Wetzig, Fraunhofer Institut für Werkstoff- Und Strahltechnik Iws Relationships Between the Melt Dynamics and Cut Finishing in Laser Cutting (705) Antonio Riveiro, Felix Quintero, Fernando Lusquinos, Mohamed Boutinguiza, Rafael Comesana, Juan Pou, Univ. of Vigo Energy Balance of Laser-Oxygen Cutting of Thick Steel Sheets with Minimal Roughness (706) Anatoly Orishich, Institute of Theoretical and Applied Mechanics, Russian Academy of Sciences, Sib; Alexander Malikov, Victor Shulyatyev, Itpm Sb Ras Yb-Fibre Laser Single Sided Tube Cutting for Nuclear Decommissioning Applications (707) Ali Khan, Paul Hilton, TWI Ltd Laser Trimming of Hot Formed Steels: A Comparison Between 10,6 and 1”M Laser Light (708) Ivo Gasner, TRUMPF Inc.

LMP Session 5: Laser Welding Process Tuesday, September 28 • 8:00am

LMP Session 8: Laser Metal Deposition Material Tuesday, September 28 • 1:00pm

LMP Session 4: Laser Metal Deposition: Process Tuesday, September 28 • 8:00am Session Chair: Ingomar Kelbassa, RWTH Aachen Univ., Aachen, Germany

Session Chair: Juergen Griebsch, Hochschule für Technik und Wirtschaft des Saarlandes, Saarbrücken, Germany

Session Chair: James Sears, South Dakota School of Mines & Technology, Rapid City, SD, USA

Ultra High Speed Camera Investigations of Laser Beam Welding. (501) Ingemar Eriksson, Alexander Kaplan, Luleå Univ of technology; John Powell, Laser Expertise Influencing Melt Pool Dynamics with Short Pulses (502) Rudolf Weber, Roland Gauch, IFSW, Univ. of Stuttgart Novel High-Speed Space-Resolved X-Ray System for In-Situ Diagnostics of Laser Based Processes (503) Felix Abt, Rudolf Weber, Thomas Graf, IFSW, Institut für Strahlwerkzeuge Studies in the Interpretation of the Reflected Feedback from Laser Welding (504) Rickard Olsson, Lasernova AB; John Powell, Alexander Kaplan, Ingemar Eriksson, Luleå Univ. of Technology; Tony Langtry, GE Influence on the Efficiency of the Heat Conduction Mode Laser Beam Welding Process Regarding Different Laser Spot Geometries (505) Ruediger Daub, Robert Wiedenmann, Michael F. Zaeh, IWB, Technische Universitaet Muenchen Interaction Time Effects on the Transition Between Conduction and Keyhole Laser Welding (506) Eurico Assuncao, Stewart Williams, David Yapp, Cranfield Univ. Laser Power Modulation at the Threshold from Heat Conduction to Deep Penetration Welding (507) Peter Stritt, GSaME; Rudolf Weber, Thomas Graf, IFSW (Institut für Strahlwerkzeuge); Steffen Mueller, Audi Ag A Comparison Between Long Pulse Quasi-Continuous Wave Fiber Lasers and Flashlamp-Pumped Solid State Lasers (508) Tony Hoult, IPG Photonics Corporation

Liquation Cracking During Laser Deposition onto cm 247 cc Superallow (801) James Chen, Ovidiu Timotin, Siemens Energy Laser Surface Alloying (LSA) of Aluminium (Aa 1200) with Tib2 for Corrosion Improvement. (802) Patricia Popoola, Tshwane Univ. of Technology Thick Ni-Al Based Clad Alloys on Inconel 617 Using High Power Laser (803) Mohammed Kadhimal-Tameemi, Ahmed Moosa, Akeel Subhi, Univ. of Technology Supersonic Laser Deposition of Ti and Ti64 Alloys (804) Matt Bray, Andrew Cockburn, Rocco Lupoi, William O’Neill, Martin Sparkes, Univ. of Cambridge Laser Cladding of Cobalt Alloy with Ceramic Nanopowder on Steel (805) M. Angeles Montealegre, Jorge L Arias, Pilar Rey, Gemma Castro, Marcos González, Aimen Increasing Deposition Rate of Inconel 718 for LMD (806) Johannes Witzel, Ingomar Kelbassa, Lehrstuhl für Lasertechnik, RWTH Aachen Univ.; Andres Gasser, Fraunhofer Institut für Lasertechnik Correlation Between Temperature Distribution and Formed Microstructure of In-Situ Laser Cladding of Fe-TiC on Carbon Steel (807) Ali Emamian, Masoud Alimardani, Stephen F. Corbin, Amir Khajepour, Univ. of Waterloo Direct Fabrication of a Ti-47Al-2Cr-2Nb Alloy by Selective Laser Melting and Direct Metal Deposition Processes (808) Pascal Aubry, CEA; Thierry Malot, Arts; Marc Thomas, Onera Study on Laser Parameters Effect on Morphology of In-Situ TiC-Fe Particles Deposition on Mild Steel Using Laser Cladding Process (809) Ali Emamian, Stephen F. Corbin, Amir Khajepour, Univ. of Waterloo +1.407.38 0.1553

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ICALEO® Advance Program 11

Laser Materials Processing

LMP Session 9: Laser Cutting II Wednesday, September 29 • 8:30am

LMP Session 12: Welding of Lite Metals Wednesday, September 29 • 10:50am

Session Chair: Dirk Petring, Fraunhofer ILT, Aachen, Germany

Session Chair: Thomas Seefeld, BIAS, Bremen, Germany

High Power Laser Cutting of CFRP, and Laser Direct Joining of CFRP to Metal (901) Seiji Katayama, Kwang-Woon Jung, Yousuke Kawahito, Osaka Univ. Fibre Laser Material Processing of Aerospace Composites (902) Paul French, Martin Sharp, Liverpool John Moores Univ.; Mo Naeem, GSI Group; Alexander Wolynski, IFSW Institut für Strahlwerkzeuge Laser Cutting of Phenolic Resin Panels: Identification of Potential Hazards (903) Felix Quintero, Antonio Riveiro, Fernando Lusquinos, Rafael Comesana, Juan Pou, Univ. of Vigo Remote Processing of Fiber Reinforced Plastics (904) Annett Klotzbach, Jan Hauptmann, Andreas Wetzig, Fraunhofer Institute Material and Beam Technology Dresden; Eckhard Beyer, Technical Univ. Dresden Quality of Remote Cutting (905) Veli Kujanpaa, Anssi Pihlava, Tuomas Purtonen, Antti Salminen, Lappeenranta Univ. of Technology; Timo Savinainen, VTT Methodical Qualification of Scanner Systems for Remote Laser Cutting (906) Johannes Moesl, IWB - TU Munich

Welding of Titanium and Aviation Aluminum-Lithium Alloy by the Cw CO2-Laser Beam (1201) Anatoly Orishich, Institute of Theoretical and Applied Mechanics, Russian Academy of Sciences, Sib; Yury Afonin, Anatoly Cherepanov, Itpm Sb Ras T.O.C. Monitoring in Fiber Laser Welding of Ti6Al4V (1202) Daniele Colombo, Barbara Previtali, Giovanni Riva, Politecnico Di Milano The Effect of Weld Width on Joint Properties of 5A90Al-Li Alloy (1203) Li Chen, BAMTRI High-Brightness Disk Laser Welding of Magnesium Alloys (1204) Mohamed Wahba, Osaka Univ.; Yousuke Kawahito, Seiji Katayama, Joining and Welding Research Institute Development of Mg Tube Using Laser Welding for Bike Frame (1205) Mok-Young Lee, RIST

LMP Session 10: Automotive Laser Welding Applications Wednesday, September 29 • 8:30am Session Chair: Klaus Löffler, TRUMPF Laser + Systems GmbH, Ditzingen, Germany Title - TBA (Invited Presentation) (1001) Klaus Löffler, TRUMPF Laser and Systems GmbH Laser Welding Applied to Advanced High Strength Steels for Automotive Applications (1002) Rosa María Arias Peña, Aimen (Northwest Metal Research Association); Michel García, Gestamp R & D - Autotech Engineering; David Gutierrez, Antoni Lara, Ctm Technology Centre; Alvaro Prada Fernandez, Eva Vaamonde Couso, Ambroise Vandewynckèle, Aimen Influence of Focus Diameter on Laser Weldability of Hot Stamping Steel (1003) Cheolhee Kim, Minjung Kang, KITECH; Jinkang Choi, Hyundai Rotem; Suhun Rhee, Hanyang Univ. Remote Laser Welding of Zinc-Coated Sheetmetal Component in a Lap Configuration (1004) Hongping Gu, SCFI, Magna International Welding Zinc Coated Steels: New Joint Design and Strategy with Scanner Technology (1005) Klaus Löffler, TRUMPF Laser + Systems GmbH Distortion and Residual Stresses in Laser Beam Welded Shaft-Hub Joints (1006) Frank Buschenhenke, BIAS - Bremer Institut für angewandte Strahltechnik

LMP Session 11: Laser Metal Deposition for Machine Components Wednesday, September 29 • 10:50am Session Chair: Paul Hilton, TWI Ltd., Great Abington, Cambridge, Great Britain Laser Aided Direct Metal Deposition of Stellite 6: Process Optimization and Microstructural Characterization (1101) Guru Prasad Dinda, Marcus Landrum, Frederick Dunbar, Ashish Dasgupta, Focus: Hope; Barney Charles, Pete Szalay, U.S. Tank Automotive Research, Development and Engineering Center (Tardec); Sudip Bhattacharya, Jyoti Mazumder, Univ. of Michigan Corrosion Resistant Laser Coatings for Hydraulic Piston Rods (1102) Jari Tuominen, Petri Vuoristo, Tampere Univ. of Technology, Department of Materials Science, Kokkola Unit; Jonne Näkki, Juha Junkala, Technology Centre Ketek Oy Process Parameters Analysis of High Power Direct Diode Laser Cladding (1103) Soundarapandian Santhanakrishnan, Southern Methodist Univ. Laser Reconditioning of Crankshafts: from Lab to Application (1104) Henry Koehler, Knut Partes, Thomas Seefeld, Frank Vollertsen, Bias Bremer Institut für Angewandte Strahltechnik Gmbh Laser Surface Alloying of Mn-Ni-Al Bronze for Cavitation Erosion Resistance (1105) Chi Tat Kwok, Poo Kee Wong, Weng Kin Chan, Univ. of Macau; Fai Tsun Cheng, Hau Chung Man, The Hong Kong Polytechnic Univ. +1.407.38 0.1553 12

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LMP Session 13: Removal of Coatings Wednesday, September 29 • 10:50am Session Chair: Richard Martukanitz, ARL, The Penn State Univ., State College, PA, USA Laser Technology for Aerospace Maintenance and Sustainment Applications (1301) Jim Arthur, Concurrent Tech. Corporation Polygon Scanner for Laser Paint Stripping (1302) Stanley Ream, EWI; Craig Walters, CWA Surface Preparation for Shipbuilding Using Pulsed High-Power Fibre Laser (1303) Tiaw Joo Kwee, Guoxin Chen, Kim Pong Tan, Centre of Innovation (Marine & Offshore Technology), Ngee Ann Polytechnic, Singapore; Yoo Sang Choo, Faculty of Engineering, Minghui Hong, Faculty of Engineering, National Univ. of Singapore, Singapore Underwater Laser Cleaning for Marine and Offshore Applications (1304) Guoxin Chen, Ngee Ann Polytechnic; Tiaw Joo Kwee, Ningrong Lei, Kim Pong Tan, Centre of Innovation (Marine & Offshore Technology), Ngee Ann Polytechnic, Singapore; Yoo Sang Choo, Minghui Hong, Faculty of Engineering, National Univ. of Singapore, Singapore Fibre Lasers for Surface Removal of Contaminated Concrete in the Nuclear Sector (1305) Paul Hilton, TWI Ltd.

LMP Session 14: Direct Laser Manufacturing Wednesday, September 29 • 3:00pm Session Chair: Magdi Azer, GE Global Research, Niskayuna, NY, USA The Effect of Deposition Pattern on Thermal Stress and Deformation in Laser Solid Forming (1401) Xin Lin, Bo Wang, Liang Ma, Jing Chen, Weidong Huang, Northwestern Polytechnical Univ. Additive Manufacturing of Functional Components Recent Developments and Challenges for the Future (1402) Thomas Frick, Thomas Rechtenwald, Bayerisches Laserzentrum GmbH; Michael Schmidt, Chair of Photonic Technologies, Univ. of Erlangen-Nuernberg Direct Manufacturing of Net-Shape Functional Components/Test-Pieces for Aerospace, Automotive and Other Applications (1403) Lijue Xue, National Research Council of Canada; Yangsheng Li, Industrial Materials Institute, National Research Council of Canada Selective Laser Sintering of Calcium Polyphosphate for Biomedical Applications (1404) Yaser Shanjani, Ehsan Toyserkani, Univ. of Waterloo; Andrew Pinkerton, The Univ. of Manchester In-Situ Generation of Hard Particles with Selective Laser Melting (1405) Thomas Seefeld, BIAS An Investigation of Laser Forming of Sheet Metal Using Different Beam Geometries (1406) Mohd Sabri Che Jamil, Lin Li, Mohammad Sheikh, The Univ. of Manchester

Laser Materials Processing

LMP Session 15: Other Laser Processes Wednesday, September 29 • 3:00pm Session Chair: Markus Kogel-Hollacher, Precitec Optronik GmbH/Precitec KG, Rodgau, Germany Advance in Laser Processing of Metal Matrix Composites (MMCs) (1501) Annamaria Gisario, Francesco Veniali, Univ. of Rome “La Sapienza” Department of Mechanical and Aeronautic Laser-Assisted Machining: Its Benefits and Potential (1502) Yung Shin, Purdue Univ. Surface Laser Treatments of Thermally-Sprayed Coatings On to Axial-Symmetric Substrates (1503) Massimiliano Barletta, Stefano Guarino, Dipartimento Di Ingegneria Meccanica, Univ. Degli Studi Di Roma Tor Vergata; Annamaria Gisario, Dipartimento Di Meccanica Ed Aeronautica, La Sapienza Univ. Di Roma Characterization of Material Properties During Coupling of a Laser-Sustained Plasma to a Substrate (1504) Ravindra Kumar Akarapu, Amber Black, Judith Todd, Center for Multiscale Wave-Material Interactions, Department of Engineering Science & Mechanics, The Penn State Univ.; Stephen Copley, Applied Research Lab, The Penn State Univ. Matlab Laser Toolbox (1505) Gert-willem Römer, Univ. of Twente; Bert Huis in ‘T Veld, Tno Science & Industry Chances and Challenges Processing with High Brightness Lasers (Invited Presentation) (1506) Thomas Seefeld, BIAS

LMP Session 16: Laserwelding Cu and Nonmetal Wednesday, September 29 • 3:00pm Session Chair: Rudolf Weber, IFSW, Univ. of Stuttgart, Stuttgart, Germany Benefits from Combining Laser Beams with Different Wavelengths (Green and IR) for Copper Welding (1601) Axel Hess, Andreas Heider, Rudolf Weber, Thomas Graf, IFSW Learning More About Laser Beam Welding by Applying it to Copper and Copper Alloys (1602) Dirk Petring, Vahid Nazery, Fraunhofer ILT Laser Welding of Dissimilar Copper-Aluminum Connections by Means of Roll-Cladded Inserts (1603) Thomas Frick, Markus Weigl, Bayerisches Laserzentrum GmbH; Michael Schmidt, Chair of Photonic Technologies, Univ. of Erlangen-Nuernberg Analysis of Laser Welding of Long Fiber Reinforced Composites (1604) Wolfgang Knapp, CLFA Fraunhofer ILT; Jacques Renard, Christoph Binetruy, Mylene Deleglise, Inst. Carnot Mines; Andreas Roeser, Christoph Franz, Fraunhofer ILT New Perspectives for the Absorber Free Laser Welding of Thermoplastics (1605) Andrei Lucian Boglea, Andreas Roesner, Alexander Olowinsky, Fraunhofer ILT

LMP Session 17: Laser Surface Modification Thursday, September 30 • 8:30am Session Chair: Stanley Ream, EWI, Columbus, OH, USA A Thermo-Kinetic Phase Transformation Model for Multi-Pass Laser Heat Treatment by using High Power Direct Diode Laser (1701) Soundarapandian Santhanakrishnan, Southern Methodist Univ. Local Laser Heat Treatment of Stainless Steel at Very High Speed (1702) Steffen Bonss, Marko Seifert, Jan Hannweber, Udo Karsunke, Stefan Kuehn, Eckhard Beyer, Fraunhofer IWS Effect of Laser Surface Melting on Corrosion Behavior of Aged Duplex Stainless Steel (1703) Weng Kin Chan, Chi Tat Kwok, Kin Ho Lo, Univ. of Macau The Generation of Autogeneous Surface Features Using a Low Power Laser Beam (1704) Jonathan Blackburn, The Univ. of Manchester; Paul Hilton, TWI Ltd Laser Polishing of Metallic Freeform Surfaces (1705) Roman Ostholt, RWTH Aachen Univ.; Edgar Willenborg, Konrad Wissenbach, Fraunhofer ILT Investigation on Nano Particle Interfacial Bond of Nano Wc Powder Cold Planting Via Laser Shock Peening Onto Light Metal Surfaces (1706) Liang Lv, Minlin Zhong, Tsinghua Univ. Research on Self-Nanocrystallization Induced by Laser Shock Processing on the Surface of Titanium Alloy (1707) Zhigang Che, Beijing Aeronautical Manufacturing Technology Research Institute (Bamtri)

Improvement of Fatigue Life of AISI 1040 Steel Components by Surface Laser Treatments (1708) Stefano Guarino, Massimiliano Barletta, Univ. of Rome Tor Vergata; Annamaria Gisario, Univ. of Rome La Sapienza Laser-Based Production of Thin Wear-Protection Films (1709) Dominik Hawelka, Fraunhofer ILT

LMP Session 18: Laser Welding Sub Atmospheric Pressure and Thick Section Thursday, September 30 • 8:30am Session Chair: Seiji Katayama, Osaka Univ., Osaka, Japan Effect of Welding Parameters on Welding of Thick Section Low Alloyed Steel with High Power Laser (1801) Tuomas Purtonen, Antti Salminen, Mikhail Sokolov, Lappeenranta Univ. of Technology Fiber Laser Welding of Thick Section Steel with Filler Powder Addition Via a Vibration Feeding Nozzle (1802) Lin Li, Kursad Sezer, Wei Wang, The Univ. of Manchester Prevention of Porosity in Deep Partial Penetration Laser and Hybrid Welding with Minimum Solute Oxygen in the Weld Metal (1803) Susumu Tsukamoto, Lin Zhao, Goro Arakane, National Institute for Materials Science; Tomohiro Sugino, IHI Corp. Laser Beam Welding with 5Kw Single Mode Fiber Laser (1804) Renald Schedewy, Eckhard Beyer, Bernd Brenner, Jens Standfuss, Fraunhofer Institute for Material and Beam Technology IWS Properties of Welded Joint for Narrow Gap Laser Welding of Austenitic Stainless Steels (1805) Xudong Zhang, Eiji Ashida, Materials Research Laboratory, Hitachi, Ltd.; Shoh Tarasawa, Hitachi-Ge Nuclear Energy, Ltd. Laser Beam Welding in Sub-Atmospheric Pressure (1806) Steffen Mueller, Craig Bratt, Fraunhofer USA CCLA Laser Beam Welding in Vacuum - A Process Variation in Comparison with Electron Beam Welding (1807) Stefan Longerich, Simon Olschok, Uwe Reisgen, Welding and Joining Institute - RWTH Aachen Univ. Deep Penetration Welding with High Power Laser Under Vacuum (1808) Yohei Abe, Osaka Univ.; Masami Mizutani, Yousuke Kawahito, Seiji Katayama, JWRI Development of a Laser Vision-Based Seam Tracking System for Welding Applications (1809) Wei Huang, Southern Methodist Univ.

LMP Session 19: Laser Welding Thursday, September 30 • 8:30am Session Chair: Laurent Berthe, CNRS/Laboratoire Procédés et Inginièrie en matériaux et Mécanique, Paris, France Laser Welding Parameters Effects on Austenitic Stainless Steels Welds Microstructure (1901) Veli Kujapää, Joonas Pekkarinen, Lappeenranta Univ. of Technology Laser Welding of Tube to Tube-Sheet Joint in Steam Generators for Nuclear Power Plants (1902) Rosa Arias, Enrique Piñeiro, Eva Vaamonde, Ambroise Vandewynckèle, AIMEN; Pedro Verón, Equipos Nucleares S.A. Effect of the Modification of the Heat Input by Optical Means on Laser Weld Properties (1903) Antti Salminen, Lappeenranta Univ. of Technology; Elin Westin, Outokumpu Corporation Stress Distribution Characteristics of Several Different Laser Welding Joints (1904) Bing Wu, BAMTRI Parameter Selection in Laser Welding Using the Power Factor Concept (1905) Wojciech Suder, Stewart Williams, Cranfield Univ. Laser Welding: The Spatter Map (1906) Alexander Kaplan, Luleå Univ. of Technology; John Powell, Laser Expertise Ltd. Net Shape Butt Welding of Mild Steel with a Fibre Laser (1907) Ramadan Eghlio, Lin Li, Andrew Pinkerton, Univ. of Manchester Welding of Dissimilar Materials with a 1Kw Fiber Laser (1908) Mohammed Naeem, GSI Group, Inc. - Laser Division Measuring Welding Velocity at Tool Center Point (1909) Christoph Franz, Fraunhofer ILT

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Laser Microprocessing Conference Conference Chair: Kunihiko Washio, Paradigm Laser Research Ltd., Tokyo, Japan The Laser Microprocessing Conference (LMF) at ICALEO ® continues to be the global forum for scientists and engineers from advanced academic research labs and industrial Research & Development departments to discuss and exchange ideas and results. The fabrication of parts, components and processing of materials with micrometer sized dimensions and precision by various lasers will be covered in LMF. Particularly, owing to the recent development of various innovative, efficient, short and ultrashort pulsed lasers with Jun Amako, Seiko Epson Corporation, Japan high brightness and excellent controllability of temporal David Clark, Coherent, Santa Clara, CA irradiation characteristics. Thus, the application fields of Masayuki Fujita, Institute for Laser Technology, Osaka, Japan laser microprocessing are rapidly growing and as a result, Paul Harrison, Heriot-Watt Univ., East Grinstead, Great Britain short and ultrafast laser processing will continue to be a Peter Herman, Univ. of Toronto, Toronto, ON, Canada major topic. This year’s LMF will have 13 technical sessions Nam Seong Kim, EO Technics, Anyang, South Korea on various topics including picosecond and femtosecond Klaus Kleine, Laserline, Inc., Santa Clara, CA, USA laser processing, advanced lasers and optical systems for Rainer Kling, Laser Zentrum Hannover e.V., Hannover, Germany microprocessing, pulse-shape and tailored-beam control of Michael Mielke, Raydiance, Inc., Petaluma, CA, USA laser interaction. We will have a series of two sessions on Stefan Nolte, Friedrich-Schiller-Univ. Jena, Jena, Germany surface microstructuring and modification. We will also have Etsuji Ohmura, Osaka Univ., Suita, Osaka, Japan serial two sessions on laser processing of solar cells. Other Yasu Osako, ESI, Portland, OR, USA topics include microjoining, micromachining and drilling, Henrikki Pantsar, Fraunhofer CLT, Plymouth, MI, USA chemical and media-assisted laser processing, micromachining Michael Schmidt, Bayerisches Laserzentrum GmbH, Erlangen, Germany of brittle materials, microprocessing of glasses and other Juergen Stollhof, TRUMPF Inc., Plymouth Township, MI, USA transparent materials and biomedical applications. Xiaoyan Zeng, Huazhong Univ. of Science & Technology, Wuhan, People’s Republic of China

LMF Session 1: Picosecond and Femtosecond Laser Processing Monday, September 27 • 1:30pm Session Chair: Yasu Osako, ESI, Portland, OR, USA Processing of Dielectric Materials and Metals with ps Laserpulses (Invited Presentation) (M101) Beat Neuenschwander, Guido F. Bucher, Christian Nussbaum, Benjamin Joss, Martin Muralt, Urs W. Hunziker, Peter Schuetz, Bern Univ. of Applied Sciences Engineering and Information Technologies Critical Performance Aspects of Ultrashort Pulse Laser Materials Processing at High Repetition Rates and Average Powers (Invited Presentation) (M102) Antonio Ancona, CNR-IFN; Sven Döring, Steffen Hädrich, Jens Limpert, Stefan Nolte, Friedrich-Schiller-Univ. Jena; Andreas TüNnermann, Fraunhofer Institute for Applied Optics and Precision Engineering IOF Analyses of Self-Focusing Phenomenon and Temperature Field in Light Absorption Medium with Ultrashort Pulse Laser Irradiation (M103) Etsuji Ohmura, Osaka Univ. Fabrication of Cylindrical Via-Holes in CFRP Using Picosecond Laser Pulses at 355 Nm (M104) Alexander Wolynski, Gsame / Ifsw; Paul French, John Moores Univ.; Hatim Haloui, Lumera Laser Gmbh; Rudolf Weber, Thomas Graf, Ifsw Laser Micromachining of CFRP by Ultra-Short Pulse Lasers (M105) Masayuki Fujita, Toshihiro Somekawa, Institute for Laser Technology; Takumi Ozaki, Minoru Yoshida, Kinki Univ.; Yutaka Mitooka, Industrial Technology Center of Okayama Prefecture; Hideyasu Shamoto, Kazuhisa Mikame, Laserx Co.,Ltd.

LMF Session 2: Advanced Lasers and Optical Systems for Microprocessing Tuesday, September 28 • 8:00am Precise Laser Cutting of Narrowings in Miniature Fuse Links by Use of Fiber Laser and Yag (355 Nm) Laser (Invited Presentation) (M201) Adam Rosowski, Ryszard Pawlak, Mariusz Tomczyk, Technical Univ. of Lodz

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LMF Session 3: Surface Microstructuring and Modification I Tuesday, September 28 • 8:00am Session Chair: Nam Seong Kim, EO Technics, Anyang, South Korea

Session Chair: Stefan Nolte, Friedrich-Schiller-Univ., Jena, Germany

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Yagboss - Laser Micro-Sculpting of Metal Surfaces for the Manufacture of High Precision Optical Encoder Scale (M202) Stephanie Giet, Frank Albri, Jonathan D. Shephard, Duncan P. Hand, Heriot Watt Univ.; Matthew D. Kidd, Renishaw Plc; Nick J. Weston, Renishaw Plc High-speed Ablation Processes with Nanosecond and Picosecond Lasers (Invited Presentation) (M202) Severin Massa, Laser Application Center - TRUMPF Laser GmbH + Co. KG Advanced Fiber Lasers for Advanced Micro-Machining & Marking Applications (M203) Tony Hoult, IPG Photonics Corporation Effects of Laser Fluence on the Micro-Structure Formation and Material Removal Rate in Ablation of Silicon Carbide (M204) G.C. Lim, Mark A.C . Tan, C.W. Tan, H.Y. Zheng, Singapore Institute of Manufacturing Technology (Simtech) Laser Surface Processing for Stress and Damage Mitigation in SiC (M205) Ronald Jacobsen, Sarah Payne, Mound Laser & Photonics Center Inc; Joseph Randi, Penn State Electro-Optics Center Laser Micro-Cladding: A Novel Laser Additive Technique to Produce Hard Micro-Coatings. (M206) Jesus Del Val, Rafael Comesana, Fernando Lusquinos, Antonio Riveiro, Felix Quintero, Juan Pou, Univ. of Vigo Metal Particle Implantation by Laser Irradiation in Borosilicate Glass (M207) Hirofumi Hidai, Takato Yamazaki, Sho Itoh, Hitoshi Tokura, Tokyo Institute of Technology; Kuniaki Hiromatsu, Agc Asahi Glass Co., Ltd

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Status Quo and Outlook of Power Scaling of Ultrafast Lasers (Invited Presentation) (M301) P. Russbueldt, H.D. Hoffmann, Fraunhofer Institute for Laser Technology; T. Mans, Chair for Laser Technology RWTH Aachen; R. Poprawe, Fraunhofer Institute for Laser Technology, Chair for Laser Technology RWTH Aachen Ultrashort Pulse Periodic Surface Structuring of Metallic Surfaces (M303) Leigh Mellor, Stuart Edwardson, Walter Perrie, Geoff Dearden, Ken Watkins, The Univ. of Liverpool

Laser Microprocessing Conference Choice of Laser Sources for Micromachining Applications (M304) Mohammed Naeem, GSI Group, Inc. - Laser Division Large-Scale Riblet Surfaces Using Multi-Spot Micro Machining (M305) T. Eschenberg, O. Haupt, R. Kling, U. Klug, V. Schultz, F. Siegel, Laser Zentrum Hannover E.V. Microdrilling of Sheet Materials with Femtosecond Laser Pulse Shaped by Computer Generated Hologram (M306) Hayato Kawashima, Masahiro Yamaji, Jun’Ichi Suzuki, Shuhei Tanaka, New Glass Forum Application of Adaptive Optics to Laser Micromachining (M307) Jonathan Parry, Rainer Beck, Jonathan Shephard, Duncan Hand, Heriot Watt Univ.; Nick Weston, Renishaw Induced Electrical Functionality in Soda-Lime Glass by Laser Ablation Backwriting (M308) Ruth Lahoz, Luis Alberto Angurel, Germán F. De La Fuente, ICMA (CSIC - Univ. of Zaragoza) Effect of Laser Irradiation Passes on Dopant Concentration in Silicon Carbide (M309) Geunsik Lim, Aravinda Kar, Univ. of Central Florida

LMF Session 4: Microjoining Tuesday, September 28 • 1:00pm Session Chair: Michael Schmidt, Bayerisches Laserzentrum GmbH, Erlangen, Germany High Efficiency Micro-Welding Using High Brightness Lasers with Tailored Team Properties. (M401) Andy Appleyard, Paul Harrison, SPI Lasers Enhancing Process Stability in Infrared Laser Micro Welding of Copper Using Frequency Converted Short Prepulses (M402) Anas Moalem, Philipp Von Witzendorff, Jörg Hermsdorf, Rainer Kling, Laser Zentrum Hannover E.V.; Ludger Overmeyer, Institut für Transport- Und Automatisierungstechnik (Ita) Laser Beam Welding of Electrical Interconnections for Lithium-Ion Batteries (M403) Jens Gedicke, Alexander Olowinsky, Fraunhofer-Institute for Lasertechnology Thermokinetic Processes in Laser Welding of Current Leads (M404) Ryszard Pawlak, Adam Rosowski, Mariusz Tomczyk, Technical Univ. of Lodz Laser Welding of a Microscale Vle Measurement Device and its Practical Application (M405) Ville Alopaeus, Aalto Univ.; Marika Hirvimäki, Arttu Jussila, Matti Manninen, Tuomas Purtonen, Antti Salminen, LUT Laser/Lappeenranta Univ. of Technology; Heidi Piili, LUT Laser/Lappeenranta Univ. of Technology, LUT Laser, Finland; Aarne Sundberg, Aalto Univ. Direct Joining of FPC and Metal Electrode by Pulsed Nd:Yag Laser (M406) Mohd Idris Shah Ismail, Yasuhiro Okamoto, Yoshiyuki Uno, Okayama Univ. New Developments in Laser Based Glass Frit Bonding for Hermetic Seals in Electronics and Sensor Technology (M407) Alexander Olowinsky, Heidrun Kind, Fraunhofer ILT Low Temperature Wafer-Level Packaging of Mems Using Selective Laser Bonding (M408) Norbert Lorenz, Martin Smith, Duncan Hand, Heriot-Watt Univ. Laser Splicing Technology for Thermoplastic Film Material (M409) Naoyuki Matsuo, Nitto Denko Corporation

LMF Session 5: Surface Microstructuring and Modification II Tuesday, September 28 • 1:00pm Session Chair: Xiaoyan Zeng, Huazhong Univ. of Science & Technology, Wuhan, People’s Republic of China Permanent Marking on Stainless Steels for Corrosion Resistance Through Control of Oxide Growth (M501) Mark Brodsky, SPI Lasers; Hongqiang Chen, Geoff Shannon, Miyachi Unitek Laser Fabrication of Nanobump Arrays on Si Substrate Via Optical NearField Enhancement (M502) Xincai Wang, Hongyu Zheng, Chi Wai Tan, Singapore Institute of Manufacturing Technology; Fei Wang, Hongyu Yu, Kin Leong Pey, Nanyang Technological Univ. Microlens Arrays Fabricated on Polycarbonate Films Via Pulsed Laser Maskless Interference Patterning (M503) Rui Guo, Dajun Yuan, Peng Shao, Suman Das, Georgia Institute of Technology

Direct Fabrication of Hierarchical Microstructures on Metals by Means of Direct Laser Interference Patterning (M504) Matthias Bieda, Andres Lasagni, Fraunhofer IWS; Eckhard Beyer, Fraunhofer IWS, Tu-Dresden Picosecond Laser 4-Beams Interference Ablation of Metal Films for Microstructuring (M505) Bogdan Voisiat, Mindaugas Gedvilas, Gediminas Raciukaitis, Institute of Physics Spatter Removal and Surface Functionalization of Laser Drilled Microchannels on Titanium to Produce a Microvalve with Wettability Control (M506) Massimiliano Bestetti, Ali Gokhan Demir, Barbara Previtali, Politecnico Di Milano Femtosecond Laser-Assisted Direct-Write Fabrication of Conducting Microstructures Via Two-Photon Polymerization of Functional EndCapped Pedot Oligomer (M507) Peng Shao, Dajun Yuan, Rui Guo, Alabi Taiwo Rapahel, Suman Das, Georgia Institute of Technology Investigations on the Laser Induced Polymerization of Organic-Inorganic Hybrid Oligomers for Micro Stereo Lithography Applications (M508) Andre Neumeister, Laser Zentrum Hannonver e.V. Laser Materials Synthesis of a Wide Bandgap Energy Converter with Embedded Concentrator and DC-AC Inverter (M509) Aravinda Kar, Univ. of Central Florida, CREOL; Nathaniel Quick, AppliCote Associates LLC.

LMF Session 6: Pulse-shape & Tailored-Beam Control of Laser Interaction Wednesday, September 29 • 8:30am Session Chair: Peter Herman, Univ. of Toronto, Ontario, Canada High-power Vortex Lasers and Their Processing Application (Invited Presentation) (M601) Takashige Omatsu, Chiba Univ. Scaling Ablation Rate for Picosecond Lasers Using Burst-Pulse Micromachining (Invited Presentation) (M602) Ralf Knappe Application of a Pulse Programmable Fiber Laser to a Broad Range of Micro-Processing Applications (M603) Corey Dunskey, Aeos; Richard Murison, Tullio Panarello, Mathew Rekow, Pyrophotonics; Henrikki Pantsar, Fraunhofer USA Pulse Shape Control and Double Pulsing of a MOPA Fiber Laser for Structuring of Metals and Silicon (M604) Sami Hendow, Multiwave Photonics

LMF Session 7: Micromachining of Brittle Materials Wednesday, September 29 • 8:30am Session Chair: Masayuki Fujita, Institute for Laser Technology, Osaka, Japan Optimization of UV Laser Scribing Process for LED Sapphire Wafers (M701) Ashwini Tamhankar, Rajesh Patel, Spectra-Physics Lasers, Newport Corporation Surface and In-Bulk Structuring of Sapphire by Femtosecond Laser Pulses (M702) Tadas Kudrius, Ricardas Buividas, Altechna Co. Ltd.; Irmantas Mikulskas, Light Conversion Ltd.; Saulius Juodkazis, Centre for Micro-Photonics, Faculty of Engineering and Industrial Sciences, Swinburne Univ. of Technology Multi-Wavelength Micromachining of Silicon and Glass by Q-Switched Short Pulsed Lasers (M703) Shiva Gadag, RCAM Southern Methodist Univ. 355Nm DPSS Uv Laser Processing of 3-D Structures for Silicon Wafer (M704) Huan Yang, Jun Duan, Fei Zhang, Xiaoyan Zeng, Wuhan National Laboratory for Optoelectronics Femtosecond Laser Micromachining of Silicon Wafer for Solar Cell Applications (M705) Qiumei Bian Micromachining of Glassy Carbon Toolsets for Micro Embossing Applications (M706) Jack Gabzdyl, SPI Lasers; Kun Li, William O’Neill, Univ. of Cambridge

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Laser Microprocessing Conference

LMF Session 8: Chemical and Media-assisted Laser Microprocessing Wednesday, September 29 • 10:50am

LMF Session 11: Laser Processing of Silicon Solar Cells Wednesday, September 29 • 3:00pm

Session Chair: Paul Harrison, Heriot Watt Univ., East Grinstead, Great Britain

Beam Delivery Techniques for Laser Fired Contacts (M1101) Zhenyan Hua, Applied Research Laboratory at Penn State Process Optimization for Improving Drilling Efficiency in EWT Solar Cell Manufacturing (M1102) Henrikki Pantsar, Hans Herfurth, Stefan Heinemann, Fraunhofer USA, Inc.; Mathew Rekow, Pyrophotonics Lasers, Inc.; Richard Murison, Pyrophotonics Lasers, Inc. Concept and Realization of a High-Rate Laser Drilling Process Reaching for Ten Thousand Holes Per Second and Beyond (M1103) Malte Schulz-Ruhtenberg, Fraunhofer Institute for Laser Technology; Tobias Baier, Manz Automation; Ernst Wilhelm Boeckler, Scanlab; Uwe Stute, TRUMPF Laser- Und Systemtechnik Ultraviolet Femtosecond Laser Appliance for SINX Removal in the Crystalline Silicon Solar Cell Manufacturing Industrial Resarch Line (M1104) Ricardas Buividas, Arturas Greicius, Vytautas Sabonis, Altechna Co. Ltd.; Algirdas Galdikas, Julius Janusonis, Valdemaras Juzumas, Arnas Naujokaitis, Applied Research Institute for Prospective Technologies; Irmantas Mikulskas, Light Conversion Ltd. Picosecond Ablation of Silicon Nitride Using 532 Nm Master Oscillator Fiber Power Amplifier for Patterning Polycrystalline Silicon Photovoltaic Cells (M1105) Brian Baird, Summit Photonics LLC; Tim Gerke, Fianium Depth Selective Laser Scribing of Thin-Film Silicon Solar Cells on Foil (M1106) Jochen Löffler, Laurie Wipliez, Martijn De Keijzer, Johan Bosman, Wim Soppe, Energy Research Center of the Netherlands (Ecn); Aart Schoonderbeek, Oliver Haupt, Rainer Kling, Laser Zentrum Hannover E.V.

Laser Micromachining of Silicon Substrates: Investigation and Utilisation of Assist Media (Invited Presentation) (M801) Alan Conneely, Gerard O’Connor, Sedao, Natalie Haustrup, National Centre of Laser Applications, School of Physics, National Univ. of Ireland Galway 3D-Microstructuring of Sapphire and Fused Silica Using High Power Fs-Laser Radiation and Selective Etching (M802) Maren Hörstmann-Jungemannn, LLT Numerical Model of Hybrid Chemical - Laser Processing of Semiconductor Materials in Etching Solutions (M803) Adam Rosowski, Ryszard Pawlak, Technical Univ. of Lodz Laser Scribing of Stainless Steel with and Without Work Media (M804) Marika HirvimäKi, Antti Salminen, Anna Unt, LUT Laser/Lappeenranta Univ. of Technology

LMF Session 9: Micromaching and Drilling Wednesday, September 29 • 10:50am Session Chair: Henrikki Pantsar, Fraunhofer CLT, Plymouth, MI, USA Micro-Cutting with Nanosecond Pulsed Fiber Lasers (M901) Mark Brodsky, Jack Gabzdyl, SPI Lasers High Speed Laser Cutting of Electrodes for Advanced Batteries (M902) Jyoti Mazumder, Mehrdad Iravani, Univ. of Michigan; Stefan Heinemann, Hans Herfurth, Henrikki Pantsar, Fraunhofer CLT, Plymouth, MI, USA, Rahul Patwa, Fraunhofer USA Mixed Mode Ablation Used for Improvements in Laser Machining (M903) Dan Casioppo, Lehigh Univ.; Paul Denney, Elizabeth Gounaris, Connecticut Center for Advanced Technology Laser Micro Machining of Glass, Ceramics and Metals Utilizing Trepanning Optics (M904) David Diego Vallejo, National Polytechnic Institute; Hans Joachim Eichler, Technical Univ. of Berlin; Gerd Illing, Laser- Und Medizin-Technologie Berlin GmbH On the Percussion Drilling of Si Using a 20W MOPA Based Yb Fiber Laser (M905) Jack Gabzdyl, SPI Laser; Kun Li, William O’Neill, Univ. of Cambridge

LMF Session 10: Microprocessing of Glasses and Other Transparent Materials Wednesday, September 29 • 3:00pm Session Chair: Etsuji Ohmura, Osaka Univ., Osaka, Japan Novel Processes in Laser Microfabrication and Microjoining (Invited Presentation) (M1001) Kazuyoshi Itoh, Yasuyuki Ozeki, Osaka Univ. Transmission Welding of Glasses by Femtosecond Laser: Structural and Mechanical Properties (M1002) Panjawat Kongsuwan, Y. Lawrence Yao, Columbia Univ. High Speed Internal Engraving Femtosecond Laser System for Anti-Counterfeiting Applications. (M1003) Eric Mottay, Amplitude Systemes; John Lopez, Alphanov; Axel Kupisiewicz, Lasea; Jean-Michel Mestrez, Trackinside Femtosecond Laser Machining of SiO2 Microfluidic Devices for Cellular Imaging During Chemotaxis Analysis (M1004) Lino Costa, Alexander Terekhov, William Hofmeister, Deepak Rajput, Kathleen Lansford, Univ. of Tennessee Space Institute; Dawit Jowhar, Chris Janetopoulos, Vanderbilt Univ. Picosecond Laser-Induced Colour Centres in Glass Optics (M1005) David Ashkenasi, Andreas Lemke, Laser- und Medizin-Technologie GmbH

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Session Chair: Rainer Kling, Laser Zentrum Hannover e.V., Hannover, Germany

LMF Session 12: Biomedical Applications Thursday, September 30 • 8:30am Session Chair: Michael Mielke, Raydiance, Inc., Petaluma, CA, USA Femtosecond Laser Ablation in Biomedical Research: From Dissecting Neural Circuits to Studying Small Strokes (Invited Presentation) (M1201) Chris Schaffer Micropillar Fabrication on Bovine Cortical Bone by Direct Write Femtosecond Laser Ablation (M1202) Katharine Flores, Yongchae Lim, Katrina Altman, Dave Farson, The Ohio State Univ. Picosecond Laser Fabrication of Nitinol for Coronary Stent Application (M1203) Noorhafiza Muhammad, Lin Li, Zhu Liu, David Whitehead, Fernando Viejo, Univ. of Manchester; Alan Boor, Wulf Oppenlaender, Swisstec Ag Metal and Stent Cutting Using Water Jet-Guided Laser Technology (M1204) Mathilde Gobet, Florent Juvet, Alexandre Pauchard, Alex Schreiner, Synova USA CO2 Whole Area Irradiative Processing and Patterning of Nylon 6,6 and the Effect Thereof on Osteoblast Cell Response in Relation to Wettability (M1205) Jonathan Lawrence, David Waugh, Loughborough Univ. Using UV Laser Surface Treatment to Modify the Wettability Characteristics of Polyamide 6,6 and its Effects on Osteoblast Cell Activity. (M1206) Jonathan Lawrence, David Waugh, Loughborough Univ. Patterning of Magnesium with Silver Nanoparticles Using Laser Assisted Direct Writing (M1207) Ehsan Foroozmehr, Hamidreza Alemohamad, Rpl-Uw; Ehsan Toyserkani, Shahrzad Esmaeili, Uw Comparison of Dry and Wet Fibre Laser Precision Cutting for Coronary Stent Manufacture (M1208) Lin Li, Noorhafiza Muhammad, David Whitehead, Univ. of Manchester; Alan Boor, Swisstec Ag

Laser Microprocessing Conference

LMF Session 13: Laser Processing of Thin-Film Solar Cells and LCDs Thursday, September 30 • 8:30am Session Chair: Juergen Stollhof, TRUMPF Inc., Farmington, CT, USA Numerical Analysis of Ultra-Violet Laser Patterning of Multilayer Thin-Film (M1301) Bukuk Oh, Seungkey Lee, Soohoa Jeong, Michael Hong, LG Electronics Micromachining of Transparent Conductive Oxide (TCO) Film on Glass Substrate Using Femtosecond Laser (M1302) Qiumei Bian, Kansas State Univ. Application of Induced Laser Ablation with Ultra Short Pulse Lasers for High Speed Thin Film Solar Cell Processing (M1303) Gerhard Heise, Hochschule München; Andreas Börner, Heinz Huber, Munich Univ. of Applied Sciences; Marcel Dickmann, Isabell Richter, Sebastian Sarrach, Muas; Helmut Vogt, Heiss Andreas, Avancis Gmbh. High Precision Scribing of Solar Cell Films by a Picosecond Laser (M1304) Wenqian Hu, Yung Shin, Purdue Univ.

Business Forum & Panel Discussion

Scribing of Thin Films with Picosecond Laser Pulses for CIGS Solar Cells (M1305) Paulius Gecys, Gediminas Raciukaitis, Mindaugas Gedvilas, Institute of Physics; Alexander Braun, Steffen Ragnow, Solarion Ag Development of Wide Operational Range Fiber Laser for Processing Thin Film Photovoltaic Panels (M1306) Shinobu Tamaoki, Sumitomo Electric Industries Ltd. Laser Structuring of Thin Films for Organic Solar Cells (M1307) Aart Schoonderbeek, Oliver Haupt, Rainer Kling, Laser Zentrum Hannover E.V.; Maik Baerenklau, Roland Roesch, Burhan Muhsin, Harald Hoppe, Experimental Physics I, Institute of Physics, Ilmenau Univ. of Technology; Dieter Teckhaus, Sk-Kassetten Gmbh & Co. Kg Improving Laser Technologies in Photovoltaics by Refractive Beam Shapers (M1308) Alexander Laskin, Vadim Laskin, Molecular Technology (Moltech) Gmbh Energy, Cost, and Throughput Efficient Processing of Solar Cells with Tailored Lasers (M1309) TBA, EdgeWave GmbH

Session Co-Chairs: Neil Ball, Directed Light Inc., San Jose, CA, USA Sri Venkat, Coherent Inc., Santa Clara, CA, USA

Tuesday, SEPTEMBER 28 • 1:00pm

50 Years of Lasers. What does the future hold?

The ICALEO Business Forum & Panel Discussion provides attendees with an exclusive opportunity to listen to and interact with industry experts, business leaders and decision makers on significant issues facing the laser and photonics industry. In keeping with the theme of ICALEO 2010 celebrating the 50th anniversary of lasers, this year’s panel discussion will look back at the key accomplishments of the past 50 years of lasers and attempt to project what the future holds for the laser industry. Expanding on the topic first presented in the Opening Plenary session of ICALEO, distinguished speakers from around the world will address three key questions: 1. What has been the greatest advancement in laser technology over the last 50 years? 2. What does the future hold for industrial laser technology? 3. How do laser companies of today compare with their early predecessors? This exciting half-day forum is open to all attendees; you will not want to miss this fantastic opportunity to engage with the speakers during the panel discussion, expand your professional development and enhance your own business perspective.

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Nanomanufacturing Conference Conference Co-Chairs: Yongfeng Lu, Univeristy of Nebraska – Lincoln, Lincoln, NE, USA Xianfan Xu, Purdue Univ., West Lafayette, IN, USA

The Nanomanufacturing Conference of ICALEO® presents papers on nanomanufacturing, which have relevance to laser technologies. Much progress has been achieved in laser direct writing for nano-machinning, nanofabrication using femtosecond lasers and laser-assisted growth of nanostructures. This conference will highlight research in emerging nanomanufacturing technologies in 3-D micro/nanomachining, holographic and 2-photon lithography, surface nanostructuring, and laser-assisted growth and expitaxy. These studies encompass a variety of applications, including dynamics study of micro-organisms, photonic crystals, nanofluidic devices, opto-fluidic and scaffolding devices, and nanoscale plasmonic structures. Program Committee: Craig Arnold, Princeton Univ., Princeton, NJ, USA Stephan Barcikowski, Laser Zentrum Hannover e.V., Hannover, Germany Kevin Chen, Beijing Golden Way Scientific Co. Ltd., People’s Republic of China Shaochen Chen, Univ. of Texas at Austin, Austin, TX, USA Suman Das, Georgia Institute of Technology, Atlanta, GA, USA Haris Doumanidis, Univ. of Cyprus, Nicosia, Cyprus Nick Fang, Univ. of Illinois at Urbana Champaign, Urbana, IL, USA Costas Grigoropoulos, Univ. of California - Berkeley, Berkeley, CA, USA Changzhi Gu, Institute of Physics, Chinese Academy of Sciences, China

Nanomanufacturing Session 1: Direct Laser Writing in Nano Fabrication Monday, September 27 • 1:30pm Session Chair: Xianfan Xu, Purdue Univ., West Lafayette, IN, USA Nanoaquarium Integrated with Functional Microcomponents for Study on Phormidium Assemblage (Invited Presentation) (N101) Koji Sugioka, Riken; Yasutaka Hanada, Katsumi Midorikawa, Riken - Asi; Atsushi Miyawaki, Ikuko Ishikawa, Hiroyuki Kawano, Riken - Bsi Micro- and Nano-Scale Manufacturing - the Converge of Science and Technology (Invited Presentation) (N102) Cheng Sun, Northwestern Univ. Holographic Lithography and Two-Photon Lithography for the Fabrication of Waveguide Defects in Three-Dimensional Photonic Crystals (N103) Yuankun Lin, Univ. of Texas-Pan American Direct-Write Femtosecond Laser Ablation and DNA Combing and Imprinting for Fabrication of a Nanofluidic Device on Ethylene Glycol Dimethacrylate Polymer (N104) Yongchae Lim, Pouyan Boukany, Dave Farson, James Lee, The Ohio State Univ.; Jingjiao Guan, Florida State Univ. In-volume Selective Laser Etching of fs Materials Processing (Invited Presentation) (N105) Jens Gottmann, RWTH Aachen Univ. Review of Mechanisms of Direct Laser Surface Nanostructuring Technological Materials (N106) Vladimir Tokarev, Vyacheslav Shmakov, A.M. Prokhorov General Physics Institute, Russ. Acad. Sci.; Vladimir Yamschikov, Vladislav Khomich, Institute of Electrophysics and Energetics, Russ. Acad. Sci.

Nanomanufacturing Session 2: Nano Fabrication Using Ultrafast Lasers Tuesday, September 28 • 8:00am Session Chair: Yongfeng Lu, Univ. of Nebraska - Lincoln, Lincoln, NE, USA Functionalizing Glass/Ceramics By Laser Irradiation (Invited Presentation) (N201) Henry Helvajian, The Aerospace Corporation Plasmonics Enhanced Femtosecond Laser Nanoprocessing: Modeling and Application to Biology (Invited Presentation) (N202) Michel Meunier, Judith Baumgart, Etienne Boulais, Ecole Polytechnique +1.407.38 0.1553 18

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Peter Herman, University of Toronto, Toronto, Canada Yoshiro Ito, Nagaoka University of Technology, Nagaoka, Niigata, Japan Sungho Jeong, Gwangju Institute of Science and Technology, S. Korea Lan Jiang, Beijing Institute of Technology, Peoples Republic of China Yuankun Lin, University of Texas-Pan American, TX, USA Etsuji Ohmura, Osaka University, , Japan Genot Pomrenke, AFOSR Alberto Salleo, Stanford University, CA, USA Xinwei Wang, Iowa State University, IA, USA Weidong Zhou, University of Texas at Arlington, TX, USA Microhole Drilling on Cemented Tungsten Carbide by Ultrashort Laser Pulses (N203) Xuan Khai Pham, Kazuya Saginawa, Graduate School of Mechanical Engineering, Nagaoka Unviersity of Technology; Rie Tanabe, Department of Mechanical Engineering, Nagaoka Univ. of Technology; Ito Yoshiro, Nagaoka Univ. of Technology Single-Pulse Ultrafast-Laser Machining of SiO2 Templates for NanoNeedle Fabrication (N204) Deepak Rajput, Lino Costa, Alexander Terekhov, Kathleen Lansford, Othman Zalloum, William Hofmeister, Univ. of Tennessee Space Institute Laser Micro/Nanopatterning of Biological Materials (invited presentation) (N205) Costas Grigoropoulos, Univ. of California-Berkeley Atomistic Structure and Dynamic Evolution of Shock Waves in Laser-Material Interaction (Invited Presentation) (N206) Xinwei Wang, Iowa State Univ. Femtosecond Laser Direct Writing of Nanoscale Silicon Lines (N207) James Mitchell, Se Jun Park, Minghao Qi, Pornsak Srisungsitthisunti, E.A. Stach, Chookiat Tansarawiput, Charles Watson, Xianfan Xu, Purdue Univ.

Nanomanufacturing Session 3: Direct Growth of Nano Structure Using Lasers Wednesday, September 29 • 8:30am Session Chair: Xinwei Wang, Iowa State Univ., Ames, IA, USA Nanoscale Plasmonic Structures Fabricated by Laser, E-Beam and Ion-Beam Techniques (Invited Presentation) (N301) Richard Haglund, Vanderbilt Univ. Precise Growth and Integration of Carbon Nanotubes Through Optical Control (Invited Presentation) (N302) Y.S. Zhou, W. Xiong, M. Mahjouri-Samani, M. Mitchell, Y.F. Lu, Univ. of Nebraska-Lincoln Large-Area Laser Interference Patterning for Periodic Growth of ZnO Nanowire Arrays (N303) Dajun Yuan, Rui Guo, Yaguang Wei, Wenzhuo Wu, Zhong Lin Wang, Suman Das, Georgia Institute of Technology Growth of Carbon Nano-Onions (CNOs) in Open Air Through Laser Resonant Excitation of Precursor Molecules (N305) Y. Gao, J.B. Park, Y.S. Zhou, Z.Q. Xie, X.N. He, T. Guillemet, Yongfeng Lu, Univ. of Nebraska - Lincoln

Poster Presentation Gallery Tuesday, September 28 & Wednesday, September 29 The Poster Presentation Gallery will be featured on Tuesday and Wednesday of the conference. Join presenters Wednesday morning for breakfast and sharing of ideas. Poster Presenters will be by their posters on Wednesday morning from 7:30am – 8:30am to answer questions. Poster presentations that submit a manuscript will be included in the ICALEO ® Proceedings. Wireless & Powerless Sensing Node for Laser Welding Monitoring (P101) Giuseppe D’Angelo, Centro Ricerche Fiat Characterization of Laser Beam Intensity Used for Machining (P102) Nafrizuan Mat Yahya, Daw Thet Thet Mon, Azlyna Senawi, Univ. Malaysia Pahang Design of a Distributed Safety Control System for Coordinated Access to Shared High Power Lasers from Multiple Processing Areas (P103) Stephen Brown, Edward Reutzel, Applied Research Lab, The Penn State Univ. An Application of Spectroscopical Measurements During Laser Beam Welding (P104) Sonja Huber, Michael F. Zaeh, Technische Univ. Muenchen Refractive Field Mapping Beam Shaping Optics: Important Features for a Right Choice (P105) Alexander Laskin, Molecular Technology (MolTech) GmbH Laser Microprocessing Powered by UV Photons (P109) Ralph Delmdahl, Jan Brune, Ludolf Herbst, Rainer Paetzel, Coherent GmbH 1Kw Fiber Coupled Output Isolator (P110) Amir Jalali, Evan Rogers, David Scerbak, Electro-Optics Technology, Inc. Size Reducing and Power Scaling of Innoslab Lasers for Direct Applications Requiring Flexible and Tailored Beam Features (P111) Jun Chen, Shaojun Fu, Claus-Rüdiger Haas, Daijun Li, Xiaomeng Liu, Bingsong Qi, Alexander Schell, Edgewave GmbH A Non-Contact Measurement Technique to Measure Micro Surface Stress and Obtain Deformation Profiles of the Order of 1Nm in Micro-Cantilever Based Structures by Single Image Optical Diffraction Method (P112) Arindam Phani Distortion Effects in Micro Welding with Fibre Laser (P113) Claus Thomy, Frank Vollertsen, BIAS GmbH Numerical Simulation of Heat Transfer and Stresses in Direct Metal Deposition Process Using Adaptive Mesh (P114) Hyung Min Chae, Univ. of Michigan Nano-Ablation Processing Mediated with Mie Resonance Scattering by High Dielectric Constant, Small Size Parameter Particles (P115) Yuto Tanaka, Go Obara, Akira Zenidaka, Minoru Obara, Keio Univ. Department of Electronics and Electrical Engineering Micro-Machining with Pulsed Fiber Lasers (P117) Jack Gabzdyl, SPI Lasers High Efficiency Gas Assisted Cutting (Hegac) with Yb Fibre Laser (P118) Ali Khan, TWI Ltd; William O’Neill, Univ. of Cambridge Focal Plane Considerations for Wide Field Scanner Based Processing with Fiber Lasers (P119) Mark Brodsky, SPI Lasers Ultra Short Pulse Laser Generated Anti-Ice Surfaces with Improved Erosion Resistance (P120) Daniel Arnaldo del Cerro, Univ. of Twente, Faculty Engineeing Technology; A.J. Huis in ‘T Veld, Univ. of Twente Tno Science & Industry; Gert-Willem Römer, Univ. of Twente, Faculty of Engineering Technology, Chair of Applied Laser Technology Laser-Induced Plasma Investigations During Material Processing (P121) David Ashkenasi, Gerd Illing, Laser Und Medizin-Technologie Berlin GmbH; David Diego-Vallejo, National Polytechnic Institute; Hans Joachim Eichler, Technical Univ. of Berlin, Optics Institute Comparison of CO2 and High Brightness Laser Sources in Flat Sheet Cutting (P122) Arttu Jussila, Tuomas Purtonen, Antti Salminen, Lappeenranta Univ. of Technology Remote Cutting of Various Metals (P123) Veli Kujanpää, Anssi Pihlava, Tuomas Purtonen, Antti Salminen, Lappeenranta Univ. of Technology; Timo Savinainen, VTT Methodical Qualification of Scanner Systems for Remote Laser Cutting (P124) Johannes Moesl, IWP - TU Munich

Laser Welding Process Control for AISI 304 Stainless Steel Using Spectroscopic Data (P125) Ali Riza Konuk, Univ. of Twente; R.G.K.M. Aarts, A.J. Huis in ‘T Veld, Univ. of Twente, Laboratory of Mechanical Automation Versatile Cutting and Welding Using Beam Optimised High Brightness Fiber Lasers (P126) Andy Appleyard, Paul Harrison, SPI Lasers Yb:Fiber and Pulsed Nd:Yag Laser Source Selection for Micro Welding Applications (P127) Hongqiang Chen, Geoff Shannon, Miyachi Unitek Corporation Characterization of in Line Beam Profile Measurements with Micro Weld Quality Using a Pulsed Nd:Yag Laser (P128) Paul Severloh, Geoff Shannon, Miyachi Unitek Corporation Improved Laser Stability for Industrial Applications (P129) Ryan Feeler, Northrop Grumman Cutting Edge Optronics A Modeling of UV Laser Drilled Microhole Profiles (P132) Frank Wu, Metrolaser Inc. Comparison of the Modeling and Experimental Data of UV Laser Drilled Microhole Profiles in the First Region (P133) Frank Wu, Metrolaser Inc. Automatic Real-Time Guidance of Laser Machining with Inline Coherent Imaging (P134) Paul J. L. Webster, Ben Y. Leung, Joe X. Z. Yu, James M. Fraser, Queens Univ. at Kingston Moving Humps at the Capillary Front in Laser Welding (P138) Peter Berger, IFSW, Univ. of Stuttgart Color Change in Laser Cutting of Paper Material (P139) Heidi Piili, Antti Salminen, Alexander Stepanov, Lappeenranta Univ. of Technology, LUT Laser, Finland Design Aspects and Manufacture of a Microdistillation Column (P140) Matti Manninen, Heidi Piili, Antti Salminen, LUT Laser/Lappeenranta Univ. of Technology, Finland Correlation Between Computer-Based Simulation Model and Practice of High-Speed Laser Welding of Polycarbonate (P141) Marika Hirvimäki, Tuomas Purtonen, Antti Salminen, Lauri Taimisto, LUT Laser/ Lappeenranta Univ. of Technology; Petri Laakso, Saara Ruotsalainen, VTT; Heidi Piili, Lappeenranta Univ. of Technology, LUT Laser, Finland Photoconductive Properties of Titanium Dioxide Film by Femtosecond Laser Irradiation (P142) Teppei Nomura, Graduate School of Enginering, Osaka Univ.; Masahiro Tsukamoto, Nobuyuki Abe, Joining and Welding Research Institute Osaka Univ.; Masanari Takahashi, Osaka Municipal Technical Research Institute; Masayuki Fujita, Institute for Laser Technology Suppression of Laser Plasma Melting Side Walls in Laser Drilling High Aspect Ratio Microvias (P143) Vladimir Tokarev, Vyacheslav Shmakov, A. M. Prokhorov General Physics Institute, Russ. Acad. Sci.; Vladimir Yamschikov, Vladislav Khomich, Institute of Electrophysics and Energetics, Russ. Acad. Sci. New Nozzle for High Power CO2 Laser Welding with Argon as Shielding Gas (P145) Gaia Ballerini, Francis Briand, Philippe Lefebvre, Chouf Karim, Air Liquide Comparison of CO2 and Fibre Laser Surface Treatment of Zirconia Engineering Ceramics and the Effects Thereof on Phase Transformation (P146) Pratik Shukla, Loughborogh Univ. Effect of Brightness from CO2, Nd:Yag and Fibre Laser Surface Processing of Engineering Ceramics (P147) Jonathan Lawrence, Pratik Shukla, Loughborogh Univ. A Comparison of Laser vs. Resistance Spotwelding of a Thin-to-Thick Dissimilar Metal Joint (P148) D.O. MacCallum, G.A. Knorovsky Knorovsky, Sandia National Laboratories

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Poster Presentation Gallery Continued Real-Time Control of Polarization in Ultra-Short-Pulse Laser Micro-Machining (P150) Olivier Allegre, W. Perrie, S.P. Edwardson, G. Dearden, K.G. Watkins, The Laser Group, Department of Engineering; K. Bauchert, Boulder Nonlinear Systems, Inc. Purchasing the Ounce of Prevention: Vital Tools for Today’s Industrial Laser Users (P151) John McCauley, Ophir-Spiricon, LLC. Spectroscopic Diagnostics on Arc Plasma in Laser-Tig Double-Side Welding of Aluminium Alloy (P152) Zhao Bang, Zhenglong Lei, Yanbin Chen, Harbin Institute of Technology Surface Analysis System by Vuv Photons-Stimulated Desorption (P153) Masahito Katto, Masanori Kaku, Shoichi Kubodera, Atushi Yokotani, Univ. of Miyazaki; Wataru Sasaki, Ntp, Inc. Laser Resonant Vibrational Excitations of Precursor Molecules in MultiEnergy Processing for Diamond Synthesis (P154) Z.Q. Xie, J.B. Park, X.N. He, Y. Gao, T. Guillemet, Yongfeng Lu, Y.S. Zhou, Univ. of Nebraska-Lincoln Laser Stripping of Thermal Barrier Coatings from Turbine Blades (P155) Larry Dosser, Carl Druffner, Sarah Payne, Mound Laser & Photonics Center Inc. Numerical Modeling of Laser-Sustained-Argon Plasma and Validation Using Spectroscopic Characterization (P158) Ravindra Akarapu, Stephen Copley, Abdalla Nassar, Judith Todd, The Penn State Univ. Embedding Arrays of Microspheres with Optical Trapping for Micro Scale Device Manufacture (P159) Joe Croft, Univ. of Liverpool Study of the Induced Residual Stress During Laser Sintering of Nano-Silver Thin Films (P160) Hamidreza Alemohammad, Ehsan Toyserkani, Univ. of Waterloo In Line Beam Analysis of Nanosecond Pulsed Lasers (P161) Rebecca Gabzdyl, Advanced Laser Solutions; William O’Neill, Martin Sparkes, Univ. of Cambridge Development of Digital Particle Holographic System for Measurement of Spray Field Characteristics (P162) Yan Yang, Chongqing Univ. of Tech. Laser Microwelding of Radioactive Microcapsules Made of High-Alloyd Steel (P165) Daniel Besnea, Univ. Politehnica Bucuresti Influence of the Optical Properties on the Beam Propagation for Laser Transmission Welding (P166) Andreas Roesner, Alexander Olowinsky, Mirko Aden, Fraunhofer ILT Laser Keyhole Welding of Galvanized High-Strength Steels in a Gap-Free Lap Joint Configuration (P167) Shanglu Yang, Southern Methodist Univ. Hybrid 4Kw Fiber Laser-Gmaw Welding of Half-Inch Mild Steels (P168) Shanglu Yang, Southern Methodist Univ. Characteristics of Lamp Joining Structures for Several Materials (P169) Seiji Katayama, Yousuke Kawahito, Osaka Univ.; Kouji Nishimoto, Anan National College of Technology

Proper Dispersion Management in Ultrafast Fiber Laser Leverages Beam Quality (P170) Nicholas Gagnon, Teraxion Online Monitoring of Industrial Laser Cleaning Process by Probe Beam Reflection and Plume Emission Spectroscopy (P171) Marimuthu Sundar, David Whitehead, Lin Li, Paul Mativenga, Zengbo Wang, Zhu Liu, The Univ. of Manchester Computational Studies on Performance of a Laser Propelled Air Vehicle (Vertical Lift) (P172) Swati Narang, Sonu Sivan, E.Sayee Chandrasekara Mouli, Abhishek Dodiyal, Priyanka Garg, Hindustan Univ. The Thin Film Fabrication on Transparent Material with Laser Selective Vaporing Powder (P173) Jimin Chen, Jun Shao, Beijing Univ. of Technology Fatigue Performance Improvement by Dynamic Strain Aging and Dynamic Precipitation in Warm Laser Shock Peening of Aisi 4140 (P174) Chang Ye, Purdue Univ. Optical Micro/Nanopatterning on Curved Ti Surfaces by Transported, Flexible Micro-Particle Lens Array (P176) Ashfaq Khan, Zengbo Wang, Mohammad A. Sheikh, David J. Whitehead, Lin Li, The Univ. of Manchester; Boris Luk’Yanchuk, Data Storage Institute (DSI) Optical Micro/Nanopatterning on Hydrophobic Si Surface by Transported Micro-Particle Lens Arrays (P177) Zengbo Wang, Ashfaq Khan, Mohammad A. Sheikh, David J. Whitehead, Lin Li, The Univ. of Manchester; Boris Luk’Yanchuk, Data Storage Institute (DSI) Need for the Qualification of Focusing Systems for Industrial Material Processing Using High Brilliance Multikilowatt Lasers (P178) Volker Brandl, Reinhard Kramer, Otto Maerten, Harald Schwede, Stefan Wolf, PRIMES GmbH Application of Air Pump in Laser Drilling to Solve Mud Circulation Problem in Oil Wells Drilling Industry (P181) Mahdi Bakhtbidar, Mohsen Ghorbankhani, Azad Univ. of Omidieh Branch; Siamak Moradi, Islamic Azad Univ., Mahshahr Branch Self-Optimizing Focus Technique (SOFT) - A New Approach on the Way to Next Generation Cognitive Laser Cutting Machines (P182) T. Molitor, F. Schneider, U. Thombansen, D. Petring, Fraunhofer ILT; U. Eppelt, Department Nonlinear Dynamics of Laser Processing (NLD), RWTH Aachen Univ.; W. Schulz, Fraunhofer ILT, Department Nonlinear Dynamics of Laser Processing (NLD), RWTH Aachen Univ. Variation of Topography on the Ti-Based Bulk Metallic Glass After Femtosecond Laser Irradiation (P187) Togo Shinonaga, Daisuke Tone, Graduate School of Engineering, Osaka Univ.; Masahiro Tsukamoto, Joining and Welding Research Institute, Osaka Univ.; Sayaka Maruyama, Graduate School of Science and Engineering, Tokyo Institute of Technology; Nobuhiro Matsushita, Materials and Structures Laboratory, Tokyo Institute of Technology; Takeshi Wada, Xinmin Wang, Institute for Materials Research, Tohoku Univ.; Hiroshi Honda, National Institute for Materials and Science Laser Induced Thin Film Epitaxial Growth (P188) Mohammad Anwar, E-Links Pvt. Ltd.

About LIA

Laser Institute of America (LIA), founded in 1968, is the international society dedicated to fostering lasers, laser applications and laser safety worldwide. LIA has grown to represent hundreds of corporate and thousands of individual members in the laser industry. Visit www.laserinstitute.org for more information!

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Laser Solutions Short Courses Short Course Chair: Stefan Kaierle, Fraunhofer ILT, Aachen, Germany ICALEO® offers delegates an opportunity for a technical refresher or an insight into a new area of industrial photonics with the chance to attend a number of “hot-topic” solutions courses. A series of short courses taught by industrial photonics experts will address fundamentals related to lasers, optics, material processing and applications. These short courses have been chosen to complement the other ICALEO activities and also the LIA experience. For the first time, the short courses will be held within a full day session prior to the main conference so that every participant has the chance to attend this event. Conference participants are therefore encouraged to attend these courses – no additional fee is required. We look forward to seeing you in Anaheim, California!

Course 1: Introduction to CNC Laser Applications

Sunday, September 26 • 8:00am Course Level: Beginner to Intermediate Richard Press, Adjuct Instructor at San Jose City College, CA, USA This is an introductory talk on lasers and laser applications. It is presented at a beginner’s level and is intended to expose the audience to the basics of laser machine tools and laser applications. It assumes that the audience has a basic understanding of science or engineering. It consists of a single 2-hour (time approximate) lecture on the following topics: A) A discussion of the advantages of laser machining compared to conventional machining. B) Basic laser theory: what a laser is; how it works; and how laser light is different from ordinary light. C) A basic description of the standard types of machine tools. D) A basic description of what a laser machine tool is. E) A basic description of laser applications, such as drilling, cutting, welding, and marking. F) An example of a high-precision laser machining operation: stent cutting. The objectives for this course are: 1. An understanding of basic laser theory 2. An understanding of how a laser functions and how laser light differs from conventional light 4. A basic understanding of the functions of machine tools 5. A basic understanding of the functions of laser machine tools 6. A basic understanding of laser applications

Course 2: Laser Micro Applications – Ablation and Joining with High Precision

Sunday, September 26 • 9:30am Course Level: Intermediate Alexander Olowinsky, Fraunhofer Institute for Lasertechnology, Aachen, Germany High lateral resolution due to precise focusability down to a few micrometers, low heat input and high flexibility are main features of laser tools and processes for precision micro materials processing. With these properties the laser qualifies for numerous applications fields like electronics, sensor technology, medical technology, fine mechanics and micro system technology. Laser based micro and nano manufacturing technologies and production systems, which are adapted to the customer’s specific applications, will be presented. The ongoing miniaturization of products in fine mechanics, electronics, medical technology and sensor devices requires components with structure sizes in the micrometer range and accuracies with less than a micrometer. Laser microstructuring processes provide appropriate manufacturing processes for micro machining of metals, ceramics and polymers. Different joining processes such as soldering, welding and glass frit bonding as well as polymer welding are on their way to wide industrial use. However, the development of new laser beam sources with high beam quality extend the limits of these processes. The short course will give an overview about the different laser based technology from the basics to applications. The objectives for this course are: 1. Overview of laser micro applications 2. Basics and industrial applications 3. Processes descriptions 4. Machine components +1.407.38 0.1553 22

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Course 3: Lasers in Manufacturing for Life Science and Medicine

Sunday, September 26 • 11:15am Course Level: Intermediate Stephan Barcikowski, Laser Zentrum Hannover e.V., Hannover, Germany The course will present latest results on laser materials processing for biomedicine, e.g. - shape memory microimplants - bioactive nanoparticles for cell targeting - bioactive catheters based on laser-fabricated nanocomposite The presentation will be structured into 1) SCALE: Bio-Response relationship - macro ==> micro ==> nano 2) STRUCTURE: Effects - surface (adhesion) - volume (drug release) - marker (targeting) - hybrid materials (latest results) The objectives for this course are: 1. To give an overview of laser materials processing in biomedicine 2. To present most common applications and possibilities of today 3. To facilitate the selection of best available laser techniques to solve a bio-/medical problem

Course 4: Optimizing Laser Machining Processes for Yield and Throughput in Manufacturing Using DOE (design of experiments)

Sunday, September 26 • 2:00pm Course Level: Beginner to Intermediate Arzu Oskan, Abbott Laboratories, Santa Clara, CA, USA The course will present optimizing a laser machining process for yield and throughput in manufacturing using DOE (design of experiments) principles which were originally developed by a Six Sigma pioneer Dorian Shainin. Shainin’s red X concept can be used to increase yield and throughput of laser machined biomedical implants. Improvements that can be reached are significant. Four times laser cutting speed increase can therefore lead to mentionable savings for companies applying that concept. The objectives for this course are: 1. Introduction of design of experiments in general 2. Applying Shainin’s concept for laser applications 3. Demonstration of case study

Laser Solutions Short Courses

Course 5: User Innovation Communities: the Key to 21st Century R&D, Production & Marketing Success

Sunday, September 26 • 3:00pm Course Level: Beginner to Intermediate Sarah Boisvert, T4mation, Sunnyvale, CA, USA New web-based tools are transforming how technology companies manage innovation, R&D, production, customer service and marketing to create an entirely new 21st century business model. Utilizing online resources that are readily and inexpensively available to any sized company, organizations as diverse as Google, Cisco Systems, Proctor & Gamble, Hasbro Toys, NASA and the Department of Defense have demonstrated faster time to market, reduced cost and superior quality products and services that are specific to customer requirements. Web-based tools such as Cloud Computing, Crowdsourcing, selfforming communities and social networking are forcing an evolution

in traditional corporate structures fueled by the interconnectivity of like-minded individuals. Eric von Hippel, the head of the Innovation & Entrepreneurship Group at MIT’s Sloan School, calls this User Innovation Communities. This short course will present case studies demonstrating the successful implementation of User Innovation Communities. The objectives for this course are: 1. Identify and understand web-based tools such as Crowdsourcing 2. Review case studies 3. Identify key elements in applying tools to companies of all sizes 4. Differentiate between high tech and low tech applications 5. Learn how to initiate change in your own organization

Laser Industry Vendor Reception & Tabletop Display Tuesday, September 28 • 4:00pm Sharing Ideas. Discovering Solutions. As the world’s premier conference on laser materials interaction, ICALEO ® attracts over 200 companies and organizations from more than 30 countries. The Laser Industry Vendor Program gives vendors and conference attendees the opportunity to discuss equipment and applications in a relaxed setting. After completion of the technical sessions, enjoy drinks and hors d’oeuvres while sharing product ideas with your colleagues and suppliers! This is the only scheduled event for the evening, allowing participants access to the full attention of attendees. For information about participating as an ICALEO Sponsor or Vendor, contact us at +1 407.380.1553 or [email protected]. Thank you to the ICALEO Media Partners & Cooperating Societies

Sponsors and Vendors registered as of June 4 in alphabetical order. Aerotech, Inc.

Lumera Laser

Altos Photonics, Inc.

Molecular Technology (MolTech) GmbH

Cambridge Technology Inc. CLAIM, The University of Michigan Coherent, Inc. Connecticut Center for Advanced Technology- National Aerospace Leadership Initia

Mound Laser & Photonics Center, Inc. Newport Corporation Northrop Grumman Cutting Edge Optronics Onyx Optics, Inc.

CVI Melles Griot

Ophir-Spiricon, Inc.

Directed Light Inc.

OZ Optics LTD.

EdgeWave GmbH

Panasonic Boston Laboratory

Electro-Optics Technology, Inc.

Photonics Industries International, Inc.

Fraunhofer USA, Center for Coatings & Laser Applications

Precitec, Inc.

GE Global Research Haas Laser Technologies Inc. High Q Laser (US), Inc. II-VI Infrared IPG Photonics Corporation LASAG Industrial-Lasers Laser Mechanisms, Inc. Laserline Inc. Lee Laser, Inc.

RPMC Lasers, Inc. SCANLAB America, Inc. SPI Lasers Time Bandwidth, Inc. TRUMPF Inc. Laser Technology Center VIL Laser Systems/ Wayne Trail Technologies Vytran Corporation *Sponsors highlighted in bold*

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General Information

ICALEO® Registration Conference Registration Registration can be completed online or by downloading a PDF registration form from www.icaleo.org. Full conference registration includes admission to all technical sessions, the Plenary Sessions, Laser Solutions Short Courses, Receptions (Welcome Celebration, President’s Reception and Vendor Reception), Awards Luncheon and a technical digest. Student registration includes admission to all technical sessions, the Plenary Sessions, Laser Solutions Short Courses, Receptions (Welcome Celebration, President’s Reception and Vendor Reception), Awards Luncheon and a technical digest. Valid student ID is required to process registration. Student registration will not be accepted onsite; students must be pre-registered by August 26. One-day registration includes admission to technical sessions, Laser Solutions Short Courses and receptions on that day only and a technical digest. Guests may attend the Awards Luncheon and all receptions by purchasing tickets. Please pre-register your guest so we may prepare a nametag. Early Bird registrants should be paid in full by August 5. Visa, MasterCard and American Express will be accepted. You may send a check (US funds only, drawn on a U.S. bank) payable to Laser Institute of America. Purchase orders must be paid in full by August 5 to qualify for discount. Bank transfers will not be accepted as payment. On-site Registration Times Sunday, September 26 7:00am – 4:30pm Monday, September 27 6:45am – 5:00pm Tuesday, September 28 7:00am – 4:00pm Wednesday, September 29 7:00am – 5:00pm Thursday, September 30 7:00am – 12:00pm Hotel Accommodations Anaheim Marriott 700 West Convention Way Anaheim, California 92802 USA Phone: +1.714.750.8000 Fax: +1.714.750.9100 The Marriott Anaheim hotel is conveniently located in the heart of the Anaheim Resort District, offering amenities and service unrivaled by other hotels near Disneyland ® Park. Each of our 1,030 hotel rooms and suites are sure to exceed your expectations, with available high-speed internet, plush Marriott bedding, and tasteful decor. Our hotel in Anaheim, CA, is walking distance to Downtown Disneyland ® District, an outdoor promenade with restaurants, theatres, and shopping in a tropical setting. Just steps in the other direction will take you to the Anaheim GardenWalk, an oasis of outdoor shopping, dining and entertainment in the heart of Orange County. Business travelers will enjoy our Anaheim hotel’s convenient location to the Anaheim Convention Center, just steps from our Platinum Ballroom. Our luxury hotel in Anaheim has earned the ENERGY STAR ® label from the U.S. Environmental Protection Agency making your stay near Disneyland ® Park memorable. Book your hotel reservations by calling +1.714.750.8000 or book online through the ICALEO website, www.icaleo.org. Please note: the hotel reservation deadline is September 3.

Full Conference – Early Bird Registration (payment received by August 5) $715..........Member $715..........Cooperating Society $830.........Non-Member $385.........Student $410..........Retired LIA Member

Proceedings The Proceedings include all submitted papers from ICALEO – Laser Materials Processing, Laser Microprocessing, Nanomanufacturing and Poster Manuscripts. CD-Rom Proceedings will be available on-site (they will not be shipped to you).

(August 6 – August 26) $775..........Member $775..........Cooperating Society $890.........Non-Member $460.........Student $485.........Retired LIA Member

Payment received by August 5 $180..........Member $205.........Non-Member

(August 27 – Onsite) $825.........Member $940..........Non-Member Onsite registration not available for Cooperating Society, Student or Retired LIA Member One Day Conference Registration – Early Bird Registration (payment received by August 5) $295.........Member $325.........Non-Member (August 6 – August 26) $325.........Member $355.........Non-Member (August 27 – Onsite) $360.........Member $390 Non-Member Laser Solutions Short Course Registration – Early Bird Registration (payment received by August 5) $295........Member $325.........Non-Member (August 6 – August 26) $325.........Member $355.........Non-Member (August 27 – Onsite) $360.........Member $390 Non-Member *Single short course (a 90 minute presentation) admission $100 LIA Member and Non-member. *Purchase orders will not be accepted for on-site registration. Register online at www.icaleo.org

Payment received after August 5 $195..........Member $225.........Non-Member *Please note: 8.75% Sales Tax has been added to the CD-Rom Proceedings in accordance with local tax laws. Special Needs If you have any special needs that we can address to make your participation more enjoyable, please contact LIA by phone: +1 407.380.1553, Fax: +1 407.380.5588 or email: [email protected]. Transportation Shuttle Service Prime Time Shuttle provides shuttle service to and from the Anaheim Marriott Hotel. Make your reservations by visiting www.icaleo.org or call +1-800-733-8267, press 1 for reservations and mention profile ID 398007. Transportation from LAX Airport to the Anaheim Marriott is $30.00 round trip. You may go to www.icaleo.org to print a coupon to save $4 off your round trip transportation. Rental Cars Call Avis at +1-800-331-1600 or visit their website at www.avis.com and mention the discount code J093783. Average September Temperatures: 83° F/ 28°C High 61°F / 16°C Low Join the LIA! To take advantage of member registration rates, please go to the LIA website at www.laserinstitute.org for membership information and an application, or call 1.800.34LASER or +1.407.380.1553

Substitutions and Cancellations We understand that circumstances may occur to prevent you from attending the conference. If you find that you are unable to attend ICALEO®, you have several options: 1. Send a substitute. Substitutions can be made at any time – even on-site at the conference. (Please have the substitute bring your letter of confirmation to the registration desk) 2. Refund of monies. Requests for refunds must be made in writing and received on or before August 5. There is a $75 processing fee applied to all refunds. All refunds will be processed after the conference. No refund requests will be accepted after August 5. Guest Tickets, Proceedings & LIA Membership Dues are all non-refundable.

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ICALEO® 2010 Conference Agenda* Sunday, September 26

WEDNESDAY, September 29

7:00am ICALEO Registration Desk & LIA Bookstore Open 8:00am Laser Solutions Short Courses 11:30am LIA Board of Directors Meeting 4:30pm Welcome Celebration

7:00am ICALEO Registration Desk & LIA Bookstore Open 7:30am Attendee Breakfast/Poster Presentation Gallery Q & A 8:30am LMP 9: Laser Cutting II LMP 10: Automotive Laser Welding Applications LMF 6: Pulse-shape & Tailored-Beam Control of Laser Interaction LMF 7: Micromachining of Brittle Materials Nano 3: Direct Growth of Nano Structure Using Lasers 10:30am Morning Break 10:50am LMP 11: Laser Metal Deposition for Machine Components LMP 12: Welding of Lite Metals LMP 13: Removal of Coatings LMF 8: Chemical and Media-assisted Laser Microprocessing LMF 9: Micromaching and Drilling LIA Annual Meeting & Awards Luncheon 3:00pm LMP 14: Direct Laser Manufacturing LMP 15: Other Laser Processes LMP 16: Laser welding Cu and Nonmetals LMF 10: Microprocessing of Glasses and Other Transparent Materials LMF 11: Laser Processing of Silicon Solar Cells 5:00pm Afternoon Break

MONDAY, September 27 6:45am ICALEO Registration Desk & LIA Bookstore Open 7:15am Session Chair & Speaker Appreciation Breakfast 7:30am Early Morning Coffee 9:00am Plenary Session 10:10am Morning Break Lunch on own 1:30pm LMP 1: High Brightness Lasers, Challenges LMP 2: Hybrid Laser Welding Applications LMP 3: Laser Drilling LMF 1: Picosecond and Femtosecond Laser Processing Nano 1: Direct Laser Writing in Nano Fabrication 2:50pm Afternoon Break 5:00pm President’s Reception

TUESDAY, September 28 7:00am ICALEO Registration Desk & LIA Bookstore Open 7:30am Attendee Continental Breakfast 8:00am Poster Presentation Gallery 8:00am LMP 4: Laser Metal Deposition: Process LMP 5: Laser Welding Process LMF 2: Advanced Lasers and Optical Systems for Microprocessing LMF 3: Surface Microstructuring and Modification I Nano 2: Nano Fabrication Using Ultrafast Lasers 9:40am Morning Break Lunch on own 1:00pm LMP 7: Laser Cutting I LMP 8: Laser Metal Deposition Material LMF 4: Microjoining LMF 5: Surface Microstructuring and Modification II Business Forum & Panel Discussion 4:00pm Laser Industry Vendor Reception & Tabletop Display

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THURSDAY, September 30 7:00am ICALEO Registration Desk & LIA Bookstore Open 7:30am Attendee Continental Breakfast 8:30am LMP 17: Laser Surface Modification LMP 18: Laser Welding Sub Atmospheric Pressure and Thick Section LMP 19: Laser Welding LMF 12: Biomedical Applications LMF 13: Laser Processing of Thin-film Solar Cells and LCDs 10:10am Morning Break Lunch on own 1:30pm Closing Plenary Session: Joint Session (LMP & LMF) 3:50pm Farewell Break

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NON-PROFIT ORG. U.S. Postage 13501 Ingenuity Dr., Suite 128 | Orlando, FL 32826

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SPECIAL THANKS TO OUR ICALEO® 2010 SPONSORS! GOLD LEVEL

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