Laser Beam Shaping Applications (2nd Ed.) Optical Science and Engineering Series
Coordonnateurs : Dickey Fred M., Lizotte Todd E.
Introduction. Illuminators for Microlithography. Laser Beam Shaping in Array-Type Laser Printing Systems. Practical UV Excimer Laser Image System Illuminators. Illumination Light Shaping in Optical Lithography. Beam Shaping for Optical Data Storage. Isotope Separation with Infrared Laser Beams. Optical Micro-Manipulation of Live Mammalian Cells through Trapping, Sorting and Transfection. Laser Beam Shaping through Fiber Optic Beam Delivery. Laser Beam Shaping by Means of Flexible Mirrors. Application of Laser Beam Shaping for Spectral Control of "Spatially Dispersive" Lasers. Beam Shaping: A Review. History of Beam Shaping.
Fred M. Dickey is a fellow of the International Optical Engineering Society and the Optical Society of America and a senior memeber of Institute of Electrical and Electronic Engineers, he heads FMD Consulting, LLC Springfield, Missouri.
Todd E. Lizotte has focused on business development projects at Pivotal Development Co., LLC in the United States, Europe, Africa and China.
Date de parution : 03-2017
15.6x23.4 cm
Date de parution : 12-2019
15.6x23.4 cm
Thèmes de Laser Beam Shaping Applications :
Mots-clés :
Laser Beam Shaping; Diffractive Optical Elements; Lenslet Array; laser beam cutting; Beam Shaping; optical manipulation; Gaussian Beam; optical beam delivery; Optical Tweezers; light shaping; Fiber Optic Beam Delivery; lithography; Lens Array; Beam Delivery System; Fresnel Number; Optical Trapping; Laser Diode Array; Bimorph Mirrors; Microlens Arrays; Laser Array; Bessel Beams; Array Direction; Irradiance Distribution; Lens Profile; Flat Top Profile; Homogenized Plane; Laser Thermal; Beam Integrators; Mask Aligner; Aperture Stop; I; S; Moskalev; V; V; Fedorov; S; B; Mirov; T; T; Basiev†; P; G; Zverev; Scott C; Holswade
