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Yves Bellouard
Researcher at École Polytechnique Fédérale de Lausanne
Publications - 199
Citations - 3495
Yves Bellouard is an academic researcher from École Polytechnique Fédérale de Lausanne. The author has contributed to research in topics: Femtosecond & Laser. The author has an hindex of 31, co-authored 189 publications receiving 3055 citations. Previous affiliations of Yves Bellouard include École Normale Supérieure & Rensselaer Polytechnic Institute.
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Fabrication of high-aspect ratio, micro-fluidic channels and tunnels using femtosecond laser pulses and chemical etching
TL;DR: A volume sampling method to generate three-dimensional patterns is proposed and a systematic SEM-based analysis of the microstructure gives new insights toward a better understanding of the femtosecond laser interaction with fused silica glass.
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Shape memory alloys for microsystems: A review from a material research perspective
TL;DR: In this article, the authors present the status of current research and potential developments from a material research perspective for Shape Memory Alloys (SMAs) in micro-actuators.
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Spatio-temporally focused femtosecond laser pulses for nonreciprocal writing in optically transparent materials
Dawn Vitek,E. Block,Yves Bellouard,Daniel E. Adams,S. Backus,David Kleinfeld,Charles G. Durfee,Jeff Squier +7 more
TL;DR: Simultaneous spatial and temporal focusing (SSTF) provides precise control of the pulse front tilt (PFT) necessary to achieve nonreciprocal writing in glass wherein the material modification depends on the sample scanning direction with respect to the PFT.
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Integrating optics and micro-mechanics in a single substrate: a step toward monolithic integration in fused silica.
TL;DR: A novel optical sensor concept that merges integrated optics and micro-mechanics in a monolithic substrate defines a new class of monolithic optical microsystems where only optical signals are processed.
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Adaptive Scanning Optical Microscope (ASOM): A multidisciplinary optical microscope design for large field of view and high resolution imaging
TL;DR: A new optical microscope design is presented that combines a high speed steering mirror, a custom designed scanner lens, a MEMS deformable mirror, and additional imaging optics to enlarge the field of view while preserving resolving power and operating at a high image acquisition rate.