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Evidence of the disorder-independent electron-phonon scattering time in thin NbN films
Physical Review B: Condensed Matter and Materials Physics. 2023. Vol. 107. No. 5. Article 054205.
A. I. Lomakin, E. M. Baeva, Triznova A. D., Titova N. A., P. I. Zolotov, Semenov A. V., Sunegin D. E., Lubenchenko A. V., A. I. Kolbatova, G. N. Goltsman
We report on experimental study of the effect of disorder on electronic parameters and inelastic scattering mechanisms in ultrathin superconducting NbN films, which are commonly used in single-photon detectors. An increase in disorder in the studied 2.5-nm-thick NbN films characterized by Ioffe-Regel parameter from 6.3 to 1.6 is accompanied by a decrease in the critical temperature Tc from 11.5 to 3.4 K. By measuring magnetoconductance in the range from Tc to ∼3Tc, we extract the inelastic scattering rates of electrons, including electron-phonon (e-ph) scattering rate τ^(−1) e-ph. We observe that τ^(−1) e-ph and their temperature dependencies are insensitive to disorder that is not described by the existing models of the e-ph scattering in disordered metals. As temperature decreases, the temperature dependence of τ ^(−1) e-ph varies from T^3 to T^2, which can be result of a decrease in the dimensionality of phonons involved in the e-ph scattering process. Our results call for further theoretical and experimental studies of the e-ph scattering in ultrathin disordered films.
Language:
English
Dayoub A., Suleiman E., IEEE, 2026.
2026 8th International Youth Conference on Radio Electronics, Electrical and Power Engineering (REEPE)
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М.: РТУ МИРЭА, 2025.
Перспективные материалы и технологии (ПМТ-2025) : Сборник докладов Национальной научно-технической конференции с международным участием, Москва, 07–12 апреля 2025 года. – Москва: МИРЭА - Российский технологический университет, 2025. – 1820 с. ...
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Bondarenko G.G., Fisher M. R., Kristya V. I., Bulletin of the Russian Academy of Sciences: Physics 2026 Vol. 90 No. 4 P. 572–576
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IEEE, 2025.
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Singapore: Springer, 2026.
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the prospects of using this method are assessed in comparison ...
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Manohin A., Электрооборудование: эксплуатация и ремонт 2026 № 2 С. 75–85
An extended method for calculating heat transfer coefficients using programs
for automated analysis of the thermal regime of TRIANA (ASONIKA-T) radio-electronic
equipment for various designs is proposed. Based on the analysis of the obtained
heat transfer coefficients, it is shown how to set realistic values for the convective
heat transfer coefficient in SOLIDWORKS Simulation and other CAE thermal analysis
systems. ...
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Besschetnova E., Вестник Российского университета дружбы народов. Серия: Философия 2026 Т. 30 № 1 С. 243–253
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Optical satellite communication uses laser radiation to transmit information instead of the classical
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Two-dimensional (2D) chromium telluride Cr2Te3 exhibits strong ferromagnetic ordering with high coercivity at low temperatures and paramagnetic behavior when approaching room temperature. The spin states of monolayer Cr2Te3 show ferromagnetic ordering in the ground state. In situ Raman analysis reveals a reversible structure transformation and hence proves ferromagnetic to paramagnetic transition during low-temperature heating cycles (0–25 °C). The magnetic ...
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Grigoriev P., Pavlov N., Nekrasov I. et al., Communications Materials, A Nature Portfolio journal (United Kingdom) ISSN 26624443 2025 Vol. 6 No. 1 Article 252
Layered van der Waals crystals of topologically non-trivial and trivial semimetals with antiferromagnetic (AFM) ordering of magnetic sublattice are known to exhibit a negative magnetoresistance that is well correlated with AFM magnetization changes in a magnetic field. This effect is reported in several experimental studies with EuFe2As2, EuSn2As2, EuSn2P2, etc., where the resistance decreases quadratically with field by about ...
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This paper focuses on the study of reactive magnetron sputtering thin NbN films for sensitization of hot electron bolometers. HEB will be utilized in the Millimetron space observatory. The main principle of operation is a superconductivity that is experimentally observed when NbN film is cooled to the temperature of a liquid helium. At a critical ...
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A. I. Lomakin, E. M. Baeva, Titova N. A. et al., Applied Physics Letters 2025 Vol. 127 No. 17 Article 173501
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Baeva E., Kolbatova A. I., Titova N. A. et al., Physical Review B: Condensed Matter and Materials Physics 2024 Vol. 110 No. 10 Article 104519
We investigate the temporal and spatial scales of resistance fluctuations (𝑅 fluctuations) at the superconducting resistive transition accessed through voltage fluctuation measurements in thin epitaxial TiN films. This material is characterized by slow electron-phonon relaxation, which puts it far beyond the applicability range of the textbook scenario of superconducting fluctuations. The measured Lorentzian spectrum of the 𝑅 fluctuations ...
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Dotdaev A. S., Rodionov Y., Kugel K. et al., Physical Review B: Condensed Matter and Materials Physics 2023 Vol. 108 No. 16 Article 165125
We study the effects of anisotropy on the magnetoresistance of Weyl semimetals in the ultraquantum regime.
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N.I. Fedotov, Maizlakh A. A., V.V. Pavlovskiy et al., Surfaces and Interfaces 2022 Vol. 31 Article 102015
Bi2Te3 is a material with high efficiency of thermoelectric energy conversion. Recently, it was also recognized as a topological insulator, and is often used as the basis for creation of other types of topological matter. Pulsed laser deposition (PLD) is widely considered as a simple method for growing of multicomponent films, but not as a ...
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The R(T) dependences of thin superconducting aluminum films deposited on leucosapphire and gallium arsenide substrates by electron beam sputtering and molecular beam epitaxy have been experimentally studied. Regardless of morphology, a noticeable increase in the critical temperature of the superconducting transition with a decrease in the film thickness is found. The effect is interpreted as a ...
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A. I. Lomakin, E. M. Baeva, Titova Nadezhda A. et al., St. Petersburg Polytechnical University Journal: Physics and Mathematics 2022 Vol. 15 No. 3.3 P. 64–69
В данной работе мы представляем результаты экспериментального
исследования времени сбоя фазы волновой функции электрона в ультратонких
сверхпроводящих плeнках ниобия (Nb). В Nb пленках, пассированных слоем кремния
(Si), наблюдается сильная зависимость времени сбоя фазы от температуры τϕ ~ Т^(-2.5),
вероятно, обусловленная электрон-фононным рассеянием. Однако в непокрытых
кремнием Nb пленках наблюдается насыщение времени сбоя фазы при низких
температурах, что может быть обусловлено наличием ...
Added: September 12, 2023