Journal Article10.1109/TASC.2003.814178
Ultrafast superconducting single-photon optical detectors and their applications
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TL;DR: In this paper, the authors presented a new class of ultrafast single-photon detectors for counting both visible and infrared photons, based on photon-induced hotspot formation, which forces the supercurrent redistribution and leads to the appearance of a transient resistive barrier across an ultrathin, submicrometer-width, superconducting stripe.
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Abstract: We present a new class of ultrafast single-photon detectors for counting both visible and infrared photons. The detection mechanism is based on photon-induced hotspot formation, which forces the supercurrent redistribution and leads to the appearance of a transient resistive barrier across an ultrathin, submicrometer-width, superconducting stripe. The devices were fabricated from 3.5-nm- and 10-nm-thick NbN films, patterned into 10% for 405-nm radiation to 3.5% for 1550-nm photons. The detector response time and jitter were /spl sim/100 ps and 35 ps, respectively, and were acquisition system limited. The dark counts were below 0.01 per second at optimal biasing. In terms of the counting rate, jitter, and dark counts, the NbN single-photon detectors significantly outperform their semiconductor counterparts. Already-identified applications for our devices range from noncontact testing of semiconductor CMOS VLSI circuits to free-space quantum cryptography and communications.
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TL;DR: In this article, a supercurrent-assisted hotspot-formation mechanism for ultrafast detection and counting of visible and infrared photons is presented, where a photon-induced hotspot leads to a temporary formation of a resistive barrier across the superconducting sensor strip and results in an easily measurable voltage pulse.
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Phase noise measurements of ultrastable 10 GHz harmonically modelocked fibre laser
TL;DR: In this article, the lowest timing jitter reported to date for a harmonically modelocked Er fibre laser was achieved by using phase detection noise measurements over a frequency range of 100 Hz-1 MHz.
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Nonequilibrium photon‐induced hotspot: A new mechanism for photodetection in ultrathin metallic films
A. M. Kadin,Mark W. Johnson +1 more
TL;DR: In this article, a new class of photodetectors based on localized heating of an ultrathin metallic film due to absorption of individual photons is proposed, where the transient temperature rise can be of order 10 K or greater in a nonequilibrium hotspot on the nm spatial scale and ps timescale.
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