UNIFORM ASYMPTOTIC DESCRIPTION OF THE BRILLOUIN PRECURSOR IN A SINGLE-RESONANCE LORENTZ MODEL DIELECTRIC

Pure and Applied Optics: Journal of The European Optical Society Part A Pub Date : 1998-05-01 DOI:10.1088/0963-9659/7/3/017

J. Solhaug, K. Oughstun, J. Stamnes, P. Smith

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引用次数: 12

Abstract

It is well known that the dynamical evolution of the Brillouin precursor field in a single-resonance Lorentz model dielectric can be fully explained in terms of a pair of saddle points that evolve in a region of the complex -plane near the origin such that , where is the undamped resonance frequency of the dispersive medium. As time increases at a fixed propagation distance, these two near first-order saddle points first approach each other along the imaginary frequency axis, then coalesce into a second-order saddle point at the time , and finally separate from each other in the lower half-plane, one with an increasing real part and the other with a decreasing real part. The uniform asymptotic description of the Brillouin precursor provides an accurate description of the field evolution about the observation time , at which the saddle-point order changes discontinuously. However, previous approximate expressions for the phase behaviour in the region of the near saddle points have resulted in an inaccurate field evolution around . This inaccuracy is corrected in this paper. Numerical illustrations of the complete precursor evolution for the delta function pulse and the step function modulated signal are provided.

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单共振洛伦兹模型电介质中布里渊前体的均匀渐近描述

众所周知，单共振洛伦兹模型电介质中布里渊前驱场的动力学演化可以用在原点附近复平面区域内演化的一对鞍点来充分解释，其中为色散介质的无阻尼共振频率。在固定传播距离下，随着时间的增加，这两个近一阶鞍点首先沿虚频轴相互靠近，然后在同一时刻合并为一个二阶鞍点，最后在下半平面上分离，一个实部增大，另一个实部减小。布里渊前驱体的均匀渐近描述准确地描述了随观测时间的场演化，在观测时间点鞍点阶序不连续变化。然而，以前的近似表达式在鞍点附近的区域相行为导致了一个不准确的场演化。这一错误在本文中得到了纠正。给出了δ函数脉冲和阶跃函数调制信号的完整前驱演化的数值实例。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Pure and Applied Optics: Journal of The European Optical Society Part A

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