M. Hofherr scite author profile

Materials with a small superconducting energy gap are expected to 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. The observed reduction of the minimum photon energy required for direct detection is in line with model predictions of ≈ 1/3 as compared to NbN.

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Geometry-induced reduction of the critical current in superconducting nanowires

Henrich

Reichensperger

Hofherr

et al. 2012

Phys. Rev. B

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Reduction of the critical current in narrow superconducting NbN lines with sharp and rounded bends with respect to the critical current in straight lines was studied at different temperatures. We compare our experimental results with the reduction expected in the framework of the London model and the Ginsburg-Landau model. We have experimentally found that the reduction is significantly less than either model predicts. We also show that in our NbN lines the bends mostly contribute to the reduction of the critical current at temperatures well below the superconducting transition temperature.

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Broadening of hot-spot response spectrum of superconducting NbN nanowire single-photon detector with reduced nitrogen content

Henrich¹,

Dörner²,

Hofherr³

et al. 2012

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The spectral detection efficiency and the dark count rate of superconducting nanowire singlephoton detectors (SNSPD) has been studied systematically on detectors made from thin NbN films with different chemical compositions. Reduction of the nitrogen content in the 4 nm thick NbN films results in a more than two orders of magnitude decrease of the dark count rates and in a red shift of the cut-off wavelength of the hot-spot SNSPD response. The observed phenomena are explained by an improvement of uniformity of NbN films that has been confirmed by a decrease of resistivity and an increase of the ratio of the measured critical current to the depairing current. The latter factor is considered as the most crucial for both the cut-off wavelength and the dark count rates of SNSPD. Based on our results we propose a set of criteria for material properties to optimize SNSPD in the infrared spectral region.

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Temperature-Dependence of Detection Efficiency in NbN and TaN SNSPD

Engel

Inderbitzin

Schilling

et al. 2013

IEEE Trans. Appl. Supercond.

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We present systematic measurements of the temperature-dependence of detection efficiencies in TaN and NbN superconducting nanowire single-photon detectors. We have observed a clear increase of the cut-off wavelength with decreasing temperature that we can qualitatively describe with a temperature-dependent diffusion coefficient of the quasi-particles created after photon absorption. Furthermore, the detection efficiency at wavelengths shorter than the cut-off wavelength as well as at longer wavelengths exhibit distinct temperature dependencies. The underlying causes and possible consequences for microscopic detection models are discussed.

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Time-Tagged Multiplexing of Serially Biased Superconducting Nanowire Single-Photon Detectors

Hofherr¹,

Arndt²,

Ilin³

et al. 2013

IEEE Trans. Appl. Supercond.

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M. Hofherr

Tantalum nitride superconducting single-photon detectors with low cut-off energy

Geometry-induced reduction of the critical current in superconducting nanowires

Broadening of hot-spot response spectrum of superconducting NbN nanowire single-photon detector with reduced nitrogen content

Temperature-Dependence of Detection Efficiency in NbN and TaN SNSPD

Time-Tagged Multiplexing of Serially Biased Superconducting Nanowire Single-Photon Detectors

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