摘要
The Helmholtz equation is reduced to the Schrodinger-like equation and then the quantities representing the gross features for a paraxial optical beam,such as the width,divergence,radius of curvature of the wave front,complex beam parameter,beam quality factor,and the potential function representing beam propagation stability,are studied by using the quantum mechanical methods.The results derived in other ways previously are rederived by ur formulation in a more systematical and explicit fashion analytically,and some new results are demonstrated.The general equations for the evolution of these quantities,i.e.,the first-and second-order differential equations with respect to the propagation distance,such as the universal formula for the width and curvature radius,tl~e general formula for the first derivative of the complex beam parameter with respect to the axial coordinate,the general formula for the second derivative of the width with respect to the axial coordinate,and some general criteria for the conservation of the beam quality factor and the existence of a potential well of the potential function,are derived.We also discuss the application of our formulation to nonlinear parabolic-index media.
作者
LIU Timon Cheng-Yi
GUO Hong
HU Wei
DENG Xi-Ming
刘承宜;郭弘;胡巍;邓锡铭(Laboratory of Light Transmission Optics,South China Normal University,Guangzhou 510631;National Laboratory on High Power Laser and Physics,Shanghai Institute of Optics and Fine Mechanics,Chinese Academy of Sciences,Shanghai 201800)
基金
Supported partly by the National Natural Science Foundation of China under Grant No.69789801
the Guangdong Natural Science Foundation of China under Grant No.970842
and the National Hi-Tech Inertial Confinement Commit tee.
