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Quantum key distribution transmitter chip based on hybrid-integration of silica and lithium niobates 下载免费PDF全文
A quantum key distribution transmitter chip based on hybrid-integration of silica planar light-wave circuit (PLC) and lithium niobates (LN) modulator PLC is presented. The silica part consists of a tunable directional coupler and 400-ps delay line, and the LN part is made up of a Y-branch, with electro-optic modulators on both arms. The two parts are facet-coupled to form an asymmetric Mach-Zehnder interferometer. We successfully encode and decode four BB84 states at 156.25-MHz repetition rate. Fast phase-encoding of 0 or $\pi $ is achieved, with interference fringe visibilities 78.53% and 82.68% for states $|+\rangle$ and $|-\rangle$, respectively. With the aid of an extra off-chip LN intensity modulator, two time-bin states are prepared and the extinction ratios are 18.65 dB and 15.46 dB for states $|0\rangle$ and $|1\rangle$, respectively. 相似文献
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Temperature characterizations of silica asymmetric Mach-Zehnder interferometer chip for quantum key distribution 下载免费PDF全文
Quantum key distribution (QKD) system based on passive silica planar lightwave circuit (PLC) asymmetric Mach-Zehnder interferometers (AMZI) is characterized with thermal stability, low loss and sufficient integration scalability. However, waveguide stresses, both intrinsic and temperature-induced stresses, have significant impacts on the stable operation of the system. We have designed silica AMZI chips of 400 ps delay, with bend waveguides length equalized for both long and short arms to balance the stresses thereof. The temperature characteristics of the silica PLC AMZI chip are studied. The interference visibility at the single photon level is kept higher than 95% over a wide temperature range of 12 ℃. The delay time change is 0.321 ps within a temperature change of 40 ℃. The spectral shift is 0.0011 nm/0.1 ℃. Temperature-induced delay time and peak wavelength variations do not affect the interference visibility. The experiment results demonstrate the advantage of being tolerant to chip temperature fluctuations. 相似文献
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投影算法常用于混合物分析中确定灰色体系是否存在未知干扰,而在用于药品鉴别时,由于其判定标准不充分,故不能同时准确鉴别不同药品和相似药品。提出将投影算法的判定标准(待测物质光谱的量测误差大小是否在限定水平)改进为待测物质光谱与标准物质光谱的量测误差大小水平是否相当、量测误差分布是否相近。将改进投影算法与未经改进投影算法用于六种(拜耳阿司匹林肠溶片、泰诺对乙酰氨基酚缓释片、拜耳复方对乙酰氨基酚片Ⅱ、华中复合维生素C片、华中维生素B片、吗丁啉多潘立酮片)不同药品的鉴别以及三种相似药品(拜耳阿司匹林肠溶片、上海信宜药阿司匹林肠溶片、巴米尔阿司匹林泡腾片)的区分,实验结果表明改进投影算法实现了不同药品的准确鉴别及相似药品的准确区分,准确率均高达100%,有望发展成为普适,可靠的自动化药品识别算法,并为基于拉曼光谱的物质识别算法研究提供参考依据。 相似文献
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n型掺杂技术是提高电子注入性能、改善载流子平衡的有效方法,被广泛运用于有机电子学领域.近年来,基于空气稳定金属配位活化的n型掺杂(coordination-activated n-doping, CAN)技术受到了广泛关注.相对于传统n型掺杂技术, CAN具有对空气稳定、适用于多种电极、可抑制金属迁移、无副产物、工艺简单等优势,有望解决当前有机发光二极管(OLED)显示依赖易燃活泼金属实现电子注入的缺点.本文回顾了OLED中的n型掺杂体系研究进展,着重介绍了CAN策略及其机理,并对CAN的最新进展及其在OLED中的应用进行了专题介绍.最后,我们对CAN尚存在的问题及未来的发展方向进行了总结和展望. 相似文献
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