Verevkin A, Slysz W, Pearlman A, Zhang J, Sobolewski R, Okunev O, et al. Real-time GHz-rate counting of infrared photons using nanostructured NbN superconducting detectors. In: CLEO/QELS. Optical Society of America; 2003. CThM8.
Abstract: We demonstrate that our ultrathin, nanometer-width NbN superconducting single-photon detectors are capable of above 1-GHz-frequency, real-time counting of near-infrared photons. The measured system jitter of the detector is below 15 ps.
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Минаева ОВ. Быстродействующий однофотонный детектор на основе тонкой сверхпроводниковой пленки NbN [Ph.D. thesis].; 2009.
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Verevkin A, Williams C, Gol’tsman GN, Sobolewski R, Gilbert G. Single-photon superconducting detectors for practical high-speed quantum cryptography. Optical Society of America; 2001.
Abstract: We have developed an ultrafast superconducting single-photon detector with negligible dark counting rate. The detector is based on an ultrathin, submicron-wide NbN meander-type stripe and can detect individual photons in the visible to near-infrared wavelength range at a rate of at least 10 Gb/s. The above counting rate allows us to implement the NbN device to unconditionally secret quantum key distRochester, New Yorkribution in a practical, high-speed system using real-time Vernam enciphering.
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Driessen EFC. Coupling light to periodic nanostructures. Fac Scien, Leiden Un. 2009:144.
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Engel A, Aeschbacher A, Inderbitzin K, Schilling A, Il'in K, Hofherr M, et al. Tantalum nitride superconducting single-photon detectors with low cut-off energy. arXiv. 2011:9.
Abstract: Materials with a small superconducting energy gap favor a high detection efficiency of low-energy photons in superconducting nanowire single-photon detectors. We developed a TaN detector with smaller gap and lower density of states at the Fermi energy than in comparable NbN devices, while other relevant parameters remain essentially unchanged. This results in a reduction of the minimum photon energy required for direct detection to $\approx1/3$ as compared to NbN.
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