On approaching the ultimate limits of photon-efficient and bandwidth-efficient optical communication

2011 International Conference on Space Optical Systems and Applications (ICSOS) Pub Date : 2011-04-13 DOI:10.1109/ICSOS.2011.5783682
S. Dolinar, K. Birnbaum, B. Erkmen, B. Moision
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引用次数: 24

Abstract

It is well known that ideal free-space optical communication at the quantum limit can have unbounded photon information efficiency (PIE), measured in bits per photon. High PIE comes at a price of low dimensional information efficiency (DIE), measured in bits per spatio-temporal-polarization mode. If only temporal modes are used, then DIE translates directly to bandwidth efficiency. In this paper, the DIE vs. PIE tradeoffs for known modulations and receiver structures are compared to the ultimate quantum limit, and analytic approximations are found in the limit of high PIE. This analysis shows that known structures fall short of the maximum attainable DIE by a factor that increases linearly with PIE for high PIE.
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接近光子高效和带宽高效光通信的极限
众所周知,在量子极限下的理想自由空间光通信可以具有无界光子信息效率(PIE),以每光子的比特数来衡量。高PIE是以低维信息效率(DIE)为代价的,DIE是以每个时空极化模式的比特数来衡量的。如果只使用时间模式,则DIE直接转换为带宽效率。本文将已知调制和接收器结构的DIE与PIE的权衡与最终量子极限进行了比较,并在高PIE极限中找到了解析近似。这一分析表明,已知结构低于可达到的最大DIE的一个因子,对于高PIE,该因子随PIE线性增加。
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2011 International Conference on Space Optical Systems and Applications (ICSOS)
2011 International Conference on Space Optical Systems and Applications (ICSOS)
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