Nanoscale Gap-Plasmon-Enhanced Superconducting Photon Detectors at Single-Photon Level
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Yang, Jing-Wei, Peng, Tzu-Yu, Clarke, Daniel D. A., Bello, Frank Daniel, Chen, Jia-Wern, Yeh, Hao-Chen, Syong, Wei-Ren, Liang, Chi-Te, Hess, Ortwin, Lu, Yu-Jung, Nanoscale Gap-Plasmon-Enhanced Superconducting Photon Detectors at Single-Photon Level, Nano Letters, 2023
Abstract
With a growing demand for detecting light at the single-photon level in various fields, researchers are focused on optimizing the performance of superconducting single-photon detectors (SSPDs) by using multiple approaches. However, input light coupling for visible light has remained a challenge in the development of efficient SSPDs. To overcome these limitations, we developed a novel system that integrates NbN superconducting microwire photon detectors (SMPDs) with gap-plasmon resonators to improve the photon detection efficiency to 98% while preserving all detector performance features, such as polarization insensitivity. The plasmonic SMPDs exhibit a hot-belt effect that generates a nonlinear photoresponse in the visible range operated at 9 K (∼0.64Tc), resulting in a 233-fold increase in phonon–electron interaction factor (γ) compared to pristine SMPDs at resonance under CW illumination. These findings open up new opportunities for ultrasensitive single-photon detection in areas like quantum information processing, quantum optics, imaging, and sensing at visible wavelengths.
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Author's Homepage: http://people.tcd.ie/fbello
Type of material: Journal Article

