標題: 非線性光脈衝傳播的一般性量子理論
General quantum theory of nonlinear optical-pulse propagation
作者: 游信勝
Yu, Shinn-Sheng
賴瑛杰
Lai Yinchieh
光電工程學系
關鍵字: 量子光學;光脈衝;光固子;自拉曼效應;量子非破壞性偵測;光固子碰撞;quantum optics;optical pulse;optical soliton;self-Raman effect;quantum-nondemolition measurement;collision of optical solitons
公開日期: 1995
摘要: 利用線性化近似和交換算子守恆,我們發展了一個一般性的,自我一致的
方法來量子化非線性光脈衝傳播的問題。基於偶伴系統的概念,我們亦發
展了一套計算量子噪音的一般性的方法(逆向傳播法)。本論文研究的主
題包括 self-Raman 效應和三階色散對於在光纖中產生脈衝量子壓縮態的
影響以及在光纖中利用光固子碰撞做量子非破壞性偵測的分析。
Based on the linearization approximation and the conservation of
commutationbrackets, we develop a general, self-consistent way
to quantize a nonlinearoptical-pulse propagation problems. Based
on the concept of the adjoint system,we also develop a general
computation procedure (the backpropagation method)to calculate
the quantum uncertainties of the inner product between any
givenfunction and the (perturbed) field operator. The
investigation includesthe study of the impacts of the self-Raman
effect and third-order disperdionon pulsed-squeezed state
generation using optical fibers and the quantum-nondemolition
measurement of the photon number using soliton collisions in
optical fibers.
URI: http://140.113.39.130/cdrfb3/record/nctu/#NT840124039
http://hdl.handle.net/11536/60170
顯示於類別:畢業論文