会议名称(英文): Laser Beam Shaping XV
所属学科: 光学,光电子学
开始日期: 2014-08-17
结束日期: 2014-08-21
所在国家: 美国
所在城市: 美国
具体地点: San Diego, California
主办单位: 国际光学和光子学学会
摘要截稿日期: 2014-02-03
联系电话: +1 360 685 5600
E-MAIL: saral@spie.org
会议网站: http://spie.org/OPO/conferencedetails/laser-beam-shaping
会议背景介绍:
Many scientific experiments and industrial and medical applications require the shaping of the spatial and temporal profiles of laser beams.
The previous Laser Beam Shaping conferences have been excellent venues to integrate the various facets of beam shaping theory, design, and
application. Interest in laser beam shaping techniques and applications continues to grow.
The purpose of this conference is to continue to provide a forum for the interaction of engineers and scientists interested in the various
aspects of laser beam shaping. Papers on all forms of laser beam shaping theory, design, and application are solicited. Papers presenting data
on proven systems are especially encouraged. In addition, the conference will consider papers involving the shaping of the radiation patterns
of non-laser sources.
征文范围及要求:
Topics include but are not limited to:Theory geometric and physical optics, vector diffraction theory, fundamental limits, mathematical and computational techniques, spatial and temporalbeam profile shaping of short pulse lasers, polarization smoothing, smoothing by spectral dispersion, vortex beams, beam propagation.
Design geometrical optics design, physical optics design, polarization, geometrical beam shapes, hybrid approaches, optimization-based design
including genetic algorithms, intracavity approaches, diffractive, lens arrays, refractive, and Fresnel beam shaping diffusers and beam shaping
transformers, broad band beam shaping, design software and codes, beam splitting and beam combining, pulse compression and pulse chirping.
Fabrication and Testing refractive, diffractive, reflective, and GRIN systems, hybrid diffractive/refractive elements, digital holography, and Spatial Light Modulators (SLMs), E-Beam writing, diamond turning, grayscale lithography, thin film optics; RIE and chemical etching technologies.
Wave Optics novel laser beams, vortex beams, non-diffracting fields, structured light, propagation through linear and non-linear systems, propagation through turbulence, orbital angular momentum of light.
Performance Measurement and Figures of Merit (FOM)spatial and temporal profile measurement, FOM of beam profiles of laser beams, fabrication quality and alignment error.
Micro-optics, Micro-fabrication, and Micro Manipulationbeam shaping for MOEMS, MEMS, and optical tweezing and trapping.
Industrial and Commercial Applications material processing, laser communications, optical tagging, laser displays, illumination applications, surface modification, structured light applications, microscopy, theatrical laser light shows and special effects, optical data storage.
Military Applications laser ranging, laser targeting, laser weapons and laser counter measurements (dazzling).
Fiber Injection Applications fiber injection systems and beam shaping optics, high peak and average power applications, fiber injection criteria, fiber damage mechanisms at high power levels, communications and sensors applications, single and multimode applications, photonic crystal fibers.
Medical and Biomedical Applications dermatology, cosmetic surgery, ophthalmology, laser vision correction, surgery, fiber optic delivery methods, therapeutic systems, photodynamic therapy, dentistry, UV sterilization, water treatment, hospital UV germicidal air and surface disinfection, industrial and biomedical sterilization - lamp and laser beam shaping technology.
Lithographic Applications condensers for UV, deep-UV, and extreme-UV lithographic steppers, holographic projection processing applications, beam-shaping methods of image enhancement, interference lithography.
Real-Time or Adaptive Beam Shaping adaptive optics, spatial light modulators, acousto-optical modulators, computer generated holograms, liquid lens technology.
Laser Resonators diode pumping of lasers, intracavity laser beam shaping, laser modes.
Short Pulse Technology femtosecond laser pulse shaping and pulse compression techniques.
Environmental "Green" or Geospatial Technology LIDAR beam shaping, surveying.
X-ray Ray Beam Technology displacement, aperture, collimation, focusing, or imaging.
|
