Laser beam shaping using adaptive optics

被引：0

作者：

Carbon, Margarita ^{[1
]}

机构：

[1] Boeing Co, Directed Energy Syst, Canoga Pk, CA 91304 USA

来源：

WMSCI 2006: 10th World Multi-Conference on Systemics, Cybernetics and Informatics, Vol V, Proceedings | 2006年

关键词：

optics; adaptive optics; laser beam; wave-optics code; beam shaping; beam propagation; diffraction;

D O I：

暂无

中图分类号：

TP18 [人工智能理论];

学科分类号：

081104 ; 0812 ; 0835 ; 1405 ;

摘要：

Using analytical calculations and wave-optic code simulations, we study the problem of shaping the spatial distribution of laser beam intensity in the far field by varying the near-field phase. We discuss possibilities of using adaptive-optic devices to form the near-field phase distribution to reach the desirable far-field intensity profile. As an example, we show how a doughnut-like far-field intensity could be achieved by introducing a specific phase aberration into the laser beam through a deformable mirror. Diffraction limitations on the far-field beam shaping are estimated.

引用

页码：284 / 287

页数：4

共 5 条

[1]

Goodman J. W., 1968, INTRO FOURIER OPTICS, P129

[2] Adaptive optics systems implemented using two-dimensional phase retrieval and a microelectromechanical deformable mirror [J].

Rogers, S ;

Scarpino, F ;

Williamson, T ;

Lee, MK ;

Baumbach, J ;

Cowan, WD ;

Wiff, DR .

OPTICAL ENGINEERING, 2000, 39 (10) :2763-2774

[3]

ROGGEMANN MC, 2002, SPIE P ADAPTIVE OPTI, V4494, P202

[4]

STONE BR, 2002, SPIE P HIGH RESOLU 2, V4124, P212

[5] Phase retrieval-based algorithms for far field beam steering and shaping [J].

Welsh, BM ;

Roggemann, MC ;

Wilson, GL .

PROPAGATION AND IMAGING THROUGH THE ATMOSPHERE III, 1999, 3763 :11-22

← 1 →