玻色子-高斯通道中的主化阶梯

IF 4.2 Q2 QUANTUM SCIENCE & TECHNOLOGY AVS quantum science Pub Date : 2022-09-17 DOI:10.1116/5.0129704
Z. Van Herstraeten, M. Jabbour, N. Cerf
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引用次数: 0

摘要

我们证明了玻色子-高斯通道中存在多数化阶梯,也就是说,我们证明了由[公式:见正文]能量本征态(Fock态)产生的通道输出多数化了由[方程式:见正文】能量本征状态(Fock状态)产生的信道输出。这反映了通道输入处的能量与其输出处的无序关系之间的显著联系,正如多数化理论所捕捉到的那样。这一结果以前在纯损耗信道和量子受限放大器的特殊情况下是已知的,我们在这里实现了它对任何单模相位协变(或反变)玻色子-高斯信道的非平凡推广。我们证明的关键是显式构造一个列随机矩阵,该矩阵将通道的输出与其输入处的任何两个后续Fock状态相关联。这是通过利用最近发现的高斯酉的多光子跃迁概率的递推关系而实现的[Jabbour和Cerf,Phys.Rev.Res.3043065(2021)]。然后讨论了这些结果可能的概括和含义。
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Majorization ladder in bosonic Gaussian channels
We show the existence of a majorization ladder in bosonic Gaussian channels, that is, we prove that the channel output resulting from the [Formula: see text] energy eigenstate (Fock state) majorizes the channel output resulting from the [Formula: see text] energy eigenstate (Fock state). This reflects a remarkable link between the energy at the input of the channel and a disorder relation at its output as captured by majorization theory. This result was previously known in the special cases of a pure-loss channel and quantum-limited amplifier, and we achieve here its non-trivial generalization to any single-mode phase-covariant (or -contravariant) bosonic Gaussian channel. The key to our proof is the explicit construction of a column-stochastic matrix that relates the outputs of the channel for any two subsequent Fock states at its input. This is made possible by exploiting a recently found recurrence relation on multiphoton transition probabilities for Gaussian unitaries [Jabbour and Cerf, Phys. Rev. Res. 3, 043065 (2021)]. Possible generalizations and implications of these results are then discussed.
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CiteScore
9.90
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