物理学报Issue(23):230502-1-230502-10,10.DOI:10.7498/aps.64.230502
面向全光物理随机数发生器的混沌实时光采样研究∗
Study on real-time optical sampling of chaotic laser for all-optical physical random numb er generator
摘要
Abstract
Absolutely secure communication should be implemented only through the ‘one-time pad’ proposed by Shannon, requires that physical random numbers with rates matched with the associated communication systems be used as secret keys. With the wide application of the WDM technology in optical communication, the single channel rate of the current digital communication system has exceeded 10 Gb/s and developed towards 100 Gb/s. To ensure the absolute security of such a large capacity communication, a large number of real-time, and secure random numbers are needed. <br> Secure random numbers are commonly produced through utilizing physical random phenomena, called physical random number generators. However, conventional physical random number generators are limited by the low bandwidth of the applied entropy sources such as thermal noise, photon-counting and chaotic electrical circuits, and thus have typical low bit rates of the order of Mb/s. <br> In recent years, chaotic lasers attracted wide attention due to their generation of secure, reliable and high-speed random number sequences, and so due to their coherent merits such as high bandwidth, large amplitude fluctuation and ease of integration. There have been lots of schemes based on laser chaos for high-speed random number generation, but most of them execute the random number extractions from the associated laser chaos in the electrical domain and thus their generation rates are faced with the well-known ‘electrical bottleneck’. On the other hand, all-optical random number generation (AO-RNG) methods are all signal processes in the optical domain, so they can efficiently overcome this rate limitation and have a great potential in generating ultrafast random numbers of several dozens or hundreds of Gb/s. However, there is no experimental report on its realization of AO-RNG. One of the obstacles in the way for the AO-RNG achievement is to implement the fast and real-time all-optical sampling of the entropy signals (i.e., laser chaos). <br> In this paper, we present a principal experimental demonstration of the feasibility in the all-optical sampling of the chaotic light signal through constructing a TOAD-based all-optical sampler with a polarization-independent semiconductor optical amplifier (SOA). Specifically, we experimentally generate chaotic laser signals using an optical feedback semiconductor laser and finally complete a 5 GSa/s real-time and high-fidelity all-optical sampling of the chaotic laser with a bandwidth of 6.4 GHz. Further experimental results show that whether the optical sampling period is proportional to the external cavity feedback time or not has a great effect on the weak periodic suppression of the chaotic signal: only when both of them are out of proportion, can the weak periodicity of the original chaotic signal be effectively eliminated; and this is favorable for the generation of high-quality physical random numbers. To the best of our knowledge, it is the first time to realize all-optical sampling of chaotic signal in experiments.关键词
混沌激光/随机数/光采样/太赫兹光非对称解复用器Key words
chaotic laser/random numbers/optical sampling/terahertz optical asymmetric demultiplexer引用本文复制引用
李璞,江镭,孙媛媛,张建国,王云才..面向全光物理随机数发生器的混沌实时光采样研究∗[J].物理学报,2015,(23):230502-1-230502-10,10.基金项目
国家自然科学基金科学仪器基础研究专款(批准号:61227016)、国家自然科学基金青年科学基金(批准号:61205142,51404165)和山西省自然科学基金(批准号:2015021088)资助的课题 (批准号:61227016)
