Novel hermetically sealed device to realize unconventional phonon blockade at near-micron dimensions and milliKelvin temperatures

Jayant K. Nema; Srijan Gupta; Riya Thakkar; Prabhu Rajagopal

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Novel hermetically sealed device to realize unconventional phonon blockade at near-micron dimensions and milliKelvin temperatures

机译：新型密封装置，实现近微米尺寸和Millikelvin温度的非传统声子障碍

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This paper proposes a novel design for a hermetically sealable device, consisting of charged linear and nonlinear membranes driven in the gigahertz range in vacuum setting, as a source of antibunched single phonons. Constraints for effecting phonon antibunching are found using the stationary Liouville–von Neumann master equation. Using analytical calculations and material and geometry optimization, we show that sizes of the proposed system can be upscaled to the near-micrometer range in a trade-off with the system operating temperature. The results are significant to realize quantum phononics, which has much promise as a modality for sensing and computing applications.

机译：本文提出了一种用于气密可密封装置的新颖设计，包括在真空设置中在Gigahertz范围内被驱动的带电线性和非线性膜，作为抗血交的单个声子的源极。使用静止的Liouville-Von Neumann Master方程找到实现对抗血管抗静的约束。使用分析计算和材料和几何优化，我们显示所提出的系统的尺寸可以在具有系统工作温度的折衷中升高到近千分尺范围。结果对于实现量子声音学，这是非常重要的，这与感应和计算应用程序的模态具有很大的承诺。

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《AIP Advances》 |2021年第1期|共8页
作者
Jayant K. Nema; Srijan Gupta; Riya Thakkar; Prabhu Rajagopal;
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中图分类物理学;
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Topics GrapheneDensity-matrixCooling capacityMetamaterialsNanomaterialsStructural mechanicsThermal instrumentsPhononsRefrigeratorsStructural vibrations;

机译：主题图形 - 矩阵电过容易铸造型纳米材料材料结构技工验钞;

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1. Electron-phonon coupling of epigraphene at millikelvin temperatures measured by quantum transport thermometry [J] . Bayan Karimi, Hans He, Yu-Cheng Chang, Applied Physics Letters . 2021,第10期

机译：用量子输送温度测量的Millikelvin温度的电子旋光器耦合
2. Phonon Bottleneck in Graphene-Based Josephson Junctions at Millikelvin Temperatures [J] . I. V. Borzenets, U.C. Coskun, H.T. Mebrahtu, Physical review letters . 2013,第2期

机译：Millikelvin温度下基于石墨烯的约瑟夫森结的声子瓶颈
3. Nano-superconducting quantum interference devices with continuous read out at milliKelvin temperatures [J] . Hazra, D., Kirtley, Applied Physics Letters . 2013,第9期

机译：纳米超导量子干涉装置，可在毫开尔文温度下连续读出
4. Electronic temperature in phonon-photon-phonon terahertz quantum cascade devices with high-operating temperature performance [C] . G. Scamarcio, P. Patimisco, M.V. Santacroce, Quantum sensing and nanophotonic devices X . 2013

机译：具有高工作温度性能的声子-光子-太赫兹量子级联器件中的电子温度
5. Low temperature hermetically sealed three-dimensional MEMS device for wireless optical communication [D] . Agarwal, Rahul 2007

机译：用于无线光通信的低温密封三维MEMS器件
6. A 100-Channel Hermetically Sealed Implantable Device for Chronic Wireless Neurosensing Applications [O] . Ming Yin, David A. Borton, Juan Aceros, -1

机译：用于慢性无线神经传感应用的100通道气密植入式设备
7. Hermetically sealed high-temperature pressure transmitter and hermetically sealed high-temperature liquid-level probe / [O] . Morgan, M. T., U.S. Atomic Energy Commission., Oak Ridge National Laboratory, 1955

机译：密封式高温压力变送器和密封高温液位探头/
8. HERMETICALLY SEALED HIGH-TEMPERATURE PRESSURE TRANSMITTER AND HERMETICALLY SEALED HIGH-TEMPERATURE LIQUID-LEVEL PROBE [R] . M. T. Morgan 1955

机译：气密密封的高温压力变送器和气密密封的高温液位探头

Novel hermetically sealed device to realize unconventional phonon blockade at near-micron dimensions and milliKelvin temperatures

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