GRIN介质中的程函方程与光线方程

J4 ›› 2011, Vol. 49 ›› Issue (03): 533-536.

GRIN介质中的程函方程与光线方程

郭守月, 穆姝慧, 袁兴红, 周倩

安徽农业大学理学院, 合肥 230036

收稿日期:2011-03-20 出版日期:2011-05-26 发布日期:2011-06-15
通讯作者: 郭守月 E-mail:gsylz@126.com

Eikonal Equation and Equation of |Ray in GRIN Media

GUO Shou yue, MU Shu hui, YUAN Xing hong, ZHOU Qian

School of Sciences, Anhui Agricultural University, Hefei 230036, China

Received:2011-03-20 Online:2011-05-26 Published:2011-06-15
Contact: GUO Shou yue E-mail:gsylz@126.com

摘要/Abstract

摘要：

由变折射率(GRIN)介质中光程的定义, 不需借助近似理论直接推出程函方程（eikonal equation）, 再由程函方程推得光线方程的矢量形式, 并将矢量形式化简为光线方程的标量形式. 应用实例表明该公式更适于已知折射率变化规律的条件下确定光线的轨迹方程.

关键词: 变折射率介质, 光程函数, 程函方程, 光线轨迹方程, 光线方程

Abstract:

With the aid of the definition of optical length in gradient index (GRIN) medium, the eikonal equation was deduced without the help of approximate theory, then the vector form of ray equation can be derived by eikonal equation, and finally the vector form of ray equation was simplified into its scalar form. The results of application example show that the equation is especially applicable to determine the equation of ray track in terms of known variation law of refractive index.

Key words: gradient index material, function of optical path, eikonal equation, equation of ray track, equation of ray

中图分类号:

O435

郭守月, 穆姝慧, 袁兴红, 周倩. GRIN介质中的程函方程与光线方程[J]. J4, 2011, 49(03): 533-536.

GUO Shou-Ru, MU Shu-Hui, YUAN Xin-Gong, ZHOU Qian-. Eikonal Equation and Equation of |Ray in GRIN Media[J]. J4, 2011, 49(03): 533-536.

[1]	郭守月, 周倩, 袁兴红, 穆姝慧, 冯克成. 基于Maxwell电磁论的波动方程与光线轨迹方程[J]. 吉林大学学报(理学版), 2013, 51(06): 1151-1154.
[2]	郭守月, 曹春斌, 孙兆奇. 光线与两种GRIN介质界线的关系式及应用[J]. J4, 2009, 47(02): 345-349.