Quantum light propagation in longitudinally inhomogeneous waveguides as a spatial Lewis-Ermakov physical invariance

Barral D.; Linares J.

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Quantum light propagation in longitudinally inhomogeneous waveguides as a spatial Lewis-Ermakov physical invariance

机译：作为空间Lewis-Ermakov物理不变性的纵向不均匀波导中的量子光传播

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We study the propagation of quantum states of light in separable longitudinally inhomogeneous waveguides. By means of the usual quantization approach this kind of media would lead to the unphysical result of quantum noise squeezing. This problem is solved by means of generalized canonical transformations in a comoving frame. Under these transformations the generator of propagation is a Lewis-Ermakov invariant in space which is quantized and, accordingly, a propagator consistent with experiments is obtained. Finally, we show that the net effect produced by propagation in these media is a quantum Gouy's phase with applications in quantum information processing and sensing. (C) 2015 Elsevier By. All rights reserved.

机译：我们研究了可分离的纵向非均匀波导中光的量子态的传播。通过通常的量化方法，这种介质将导致量子噪声压缩的非物理结果。通过共同移动框架中的广义规范变换解决了这个问题。在这些变换下，传播的生成器是空间中的Lewis-Ermakov不变量，可以对其进行量化，从而获得与实验一致的传播子。最后，我们证明了在这些介质中传播所产生的净效应是量子Gouy相，并在量子信息处理和传感中得到了应用。（C）2015 Elsevier By。版权所有。

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《Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter》 |2016年第null期|共5页
作者
Barral D.; Linares J.;
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正文语种 eng
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关键词
Quantum optics; Wave propagation; Integrated optics;

机译：量子光学;波传播;集成光学;

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1. Quantum light propagation in longitudinally inhomogeneous waveguides as a spatial Lewis-Ermakov physical invariance [J] . Barral D., Linares J. Optics Communications: A Journal Devoted to the Rapid Publication of Short Contributions in the Field of Optics and Interaction of Light with Matter . 2016,第Null期

机译：作为空间Lewis-Ermakov物理不变性的纵向不均匀波导中的量子光传播
2. Spatial propagation of quantum light states in longitudinally inhomogeneous waveguides [J] . Barral David, Linares Jesus Journal of the Optical Society of America, B. Optical Physics . 2015,第9期

机译：量子光态在纵向非均匀波导中的空间传播
3. Exact treatments of light propagation in inhomogeneous slab waveguides using supersymmetric quantum mechanics [J] . S. K. Moayedi, A. Rostami Il Nuovo Cimento della Societa Italiana di Fisica, B. General physics, relativity, astronomy and mathematical physics and methods . 2003,第7期

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4. Numerical method for electromagnetic wave propagation problem in a cylindrical anisotropic inhomogeneous waveguide with longitudinal magnetization [C] . Eugene Smolkin, Maxim Snegur, Yuri Shestopalov Progress in Electromagnetics Research Symposium - Fall . 2017

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5. AN ANALYSIS AND SIMULATION OF ELECTROMAGNETIC WAVE PROPAGATION IN INHOMOGENEOUS TRANSITION WAVEGUIDES [D] . SAVAGE, GEORGE ALLEN 1981

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6. Mapping bound plasmon propagation on a nanoscale stripe waveguide using quantum dots: influence of spacer layer thickness [O] . Chamanei S Perera, Alison M Funston, Han-Hao Cheng, 2015

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7. Quantum light propagation in longitudinally inhomogeneous media as a spatial Lewis-Ermakov physical invariance [O] . Barral, David, Liñares, Jesús 2015

机译：量子光在纵向非均匀介质中传播空间Lewis-Ermakov物理不变性
8. Calculation of the Propagation Constant in a Rectangular Waveguide Containing an Inhomogeneous Longitudinally Magnetized Plasma [R] . Warne, L. K. 1985

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Quantum light propagation in longitudinally inhomogeneous waveguides as a spatial Lewis-Ermakov physical invariance

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