量子随机数发生器基于室温单光子发射器的硝酸盐发射器

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量子随机数发生器基于室温单光子发射器的硝酸盐发射器

Quantum random number generator based on room-temperature single-photon emitter in gallium nitride

论文作者

Luo, Qing, Cheng, Zedi, Fan, Junkai, Tan, Lijuan, Song, Haizhi, Deng, Guangwei, Wang, You, Zhou, Qiang

论文摘要

我们通过在商用硝酸盐晶圆晶片中使用室温单光子发射器，在实验上证明了实时量子随机数发生器。由于我们的单个光子发射极的亮度，原始的比特生成率为〜1.8 MHz，无偏的生成率为von Neumann的随机性提取程序后约420 kHz。我们的结果表明，商用氮化壳晶片在开发集成的高速量子随机数发生器设备方面具有巨大的潜力。

We experimentally demonstrate a real-time quantum random number generator by using a room-temperature single-photon emitter from the defect in a commercial gallium nitride wafer. Thanks to the brightness of our single photon emitter, the raw bit generation rate is ~1.8 MHz, and the unbiased bit generation rate is ~420 kHz after von Neumann's randomness extraction procedure. Our results show that commercial gallium nitride wafer has great potential for the development of integrated high-speed quantum random number generator devices.

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