縱向非均勻等離子體介質(zhì)中厄密高斯光束的線性傳輸研究

縱向非均勻等離子體介質(zhì)中厄密高斯光束的線性傳輸研究

縱向非均勻等離子體介質(zhì)中厄密高斯光束的線性傳輸研究
 
摘要：本文主要研究厄密高斯光束在等離子體介質(zhì)中的線性傍軸傳輸特性。主要包括如下內(nèi)容：從麥克斯韋方程和冷單流體(電子)模型出發(fā)，推導(dǎo)出等離子體介質(zhì)中包含等離子體密度縱向不均勻效應(yīng)的激光束線性傳輸方程；在傍軸近似和緩變包絡(luò)近似下，利用傅立葉變換方法，得出傳輸方程衍射積分形式的通解。該通解可以用來分析任意形式縱向密度不均勻等離子體對光束傳輸特性的影響。利用該通解，對厄密高斯光束總功率和桶中功率隨傳輸距離演化進(jìn)行了分析，結(jié)果表明等離子體密度縱向不均勻性將導(dǎo)致光束功率的增長。同時(shí)，線性的縱向等離子體密度不均勻性比2次型的對光束功率的影響更大。
   
關(guān)鍵詞：厄密高斯光束；等離子體；傳輸特性；解析解

Study on the linear propagation of Hermite-Gauss beam in longitudinal inhomogeneous plasmas

Abstract: In this paper, the linear paraxial propagation properties of Hermite-Gauss beam in longitudinal inhomogeneous plasmas in studied. From the Maxwell’s equations and the cold fluid (electron) equation, we derive the linear propagation equation for laser beam field. Making use of the paraxial approximation and the slowly-varying envelope approximation, a linear paraxial equation modified by longitudinal inhomogeneous  plasma is obtained, from which, we derive a general solution in the form of diffraction-integral for the beam field using the Fourier transform technique. This general solution can used to analyze the beam propagation properties in all kinds of longitudinal inhomogeneous plasmas as long as the initial form of the beam is given. And the total power and the power in barrel (PIB) of the beam with initial Hermite-Gauss form is analyzed. It is found that longitudinal inhomogeneous density enhances the powers.
  
Key words: Hermite-Gauss beam; plasma; propagation properties; analytic solution
.....................

【縱向非均勻等離子體介質(zhì)中厄密高斯光束的線性傳輸研究】相關(guān)文章：

傳輸技術(shù)在通信工程中應(yīng)用研究11-24

GPRS在生理數(shù)據(jù)遠(yuǎn)程傳輸中的應(yīng)用研究03-25

大氣壓等離子體在廢氣處理中的應(yīng)用研究03-29

傳輸系統(tǒng)中的時(shí)鐘同步技術(shù)03-18

計(jì)算電磁方法研究脈沖在光纖中的非線性傳播03-07

靜態(tài)多跳Ad Hoc網(wǎng)絡(luò)中壓縮視頻實(shí)時(shí)傳輸性能研究03-30

關(guān)于非線性編輯系統(tǒng)在現(xiàn)代教育技術(shù)中的應(yīng)用研究03-06

傳輸技術(shù)在通信工程中的應(yīng)用11-29

均勻圓陣下的DOA估計(jì)算法研究03-07