Resonant switching current detector based on underdamped Josephson junctions

IF 3.8 2区物理与天体物理 Q2 PHYSICS, APPLIED Physical Review Applied Pub Date : 2024-08-06 DOI:10.1103/physrevapplied.22.024015

Vladimir M. Krasnov

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Abstract

Current-biased Josephson junctions can act as detectors of electromagnetic radiation. At optimal conditions, their sensitivity is limited by fluctuations causing stochastic switching from the superconducting to the resistive state. This work provides a quantitative description of a stochastic switching current detector, based on an underdamped Josephson junction. It is shown that activation of a Josephson plasma resonance can greatly enhance the detector responsivity in proportion to the quality factor of the junction. The ways of tuning the detector for achieving optimal operation are discussed. For realistic parameters of

Nb

{Al O}_{x}

Nb

tunnel junctions, the sensitivity and noise-equivalent power (NEP) can reach values of

S ≃ 5 \times 10^{12}

(V/W) and

NEP ≃ 2 \times 10^{- 23}

(

{WHz}^{- 1 / 2}

), respectively. These outstanding characteristics facilitate both bolometric and single-photon detection in microwave and terahertz ranges.

Abstract Image

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基于欠阻尼约瑟夫森结的谐振开关电流检测器

电流偏压约瑟夫森结可作为电磁辐射的探测器。在最佳条件下，它们的灵敏度受到波动的限制，波动会导致从超导态到电阻态的随机切换。这项研究对基于欠阻尼约瑟夫森结的随机切换电流探测器进行了定量描述。研究表明，约瑟夫森等离子体共振的激活可以大大提高检测器的响应速度，与结的品质因数成正比。讨论了如何调整探测器以实现最佳运行。对于 Nb/AlOx/Nb 隧道结的实际参数，灵敏度和噪声等效功率（NEP）可分别达到 S≃5×1012（V/W）和 NEP≃2×10-23（WHz-1/2）。这些出色的特性为微波和太赫兹范围内的测光和单光子探测提供了便利。

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来源期刊

Physical Review Applied PHYSICS, APPLIED-

CiteScore

7.80

自引率

8.70%

发文量

760

审稿时长

2.5 months

期刊介绍： Physical Review Applied (PRApplied) publishes high-quality papers that bridge the gap between engineering and physics, and between current and future technologies. PRApplied welcomes papers from both the engineering and physics communities, in academia and industry. PRApplied focuses on topics including: Biophysics, bioelectronics, and biomedical engineering, Device physics, Electronics, Technology to harvest, store, and transmit energy, focusing on renewable energy technologies, Geophysics and space science, Industrial physics, Magnetism and spintronics, Metamaterials, Microfluidics, Nonlinear dynamics and pattern formation in natural or manufactured systems, Nanoscience and nanotechnology, Optics, optoelectronics, photonics, and photonic devices, Quantum information processing, both algorithms and hardware, Soft matter physics, including granular and complex fluids and active matter.