P
Paul Seidel
Researcher at University of Jena
Publications - 367
Citations - 6934
Paul Seidel is an academic researcher from University of Jena. The author has contributed to research in topics: Josephson effect & Thin film. The author has an hindex of 28, co-authored 364 publications receiving 5591 citations. Previous affiliations of Paul Seidel include Schiller International University & Roma Tre University.
Papers
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Journal ArticleDOI
MgB2 Wires and Bulks With High Superconducting Performance
Tatiana Prikhna,Michael Eisterer,M A Rindfleisch,Mattia Ortino,Artem Kozyrev,A. V. Shaternik,V. E. Shaternik,Michael Tomsic,Viktor Moshchil,Myroslav Karpets,Vladimir Sverdun,Semyon Ponomaryov,Vitaliy Romaka,Paul Seidel +13 more
TL;DR: In this paper, the critical current density at 4.2 and 20 K up to 15 T and the temperature dependence of the irreversible field have been studied in magnesium diboride wires and bulks prepared from boron without and with carbon addition.
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Submicron-sized MoRe-doped Si-MoRe Josephson junctions with a low specific capacitance
A. A. Kalenyuk,A. P. Shapovalov,V Shnyrkov,V. E. Shaternik,Mikhail Belogolovskii,Mikhail Belogolovskii,P. Febvre,F Schmidl,Paul Seidel +8 more
TL;DR: In this paper, a new type of low-capacitance Josephson junction was proposed and realized with a submicron-sized trilayer with tens nm-thick Si interlayer doped by metallic ultra-small inclusions and superconducting Mo-Re alloy electrodes.
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Submicron ion beam modification of high-Tc superconducting bridges
TL;DR: In this paper, the modification of high-T c superconducting film structures due to ion beam irradiation using a mask technology was investigated using a Monte-Carlo program TRIM.
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Cryogenic Q-factor measurement of optical substrates for optimization of gravitational wave detectors
TL;DR: In this paper, the authors present experimental details of a new cryogenic apparatus that is suitable for the measurement of the temperature-dependent Q-factor of reflective, transmissive as well as nano-structured grating optics down to 5 K.
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Low-temperature THz imaging of thin high-temperature superconductor films
TL;DR: In this paper, an imaging system capable of performing spatially resolved analysis in the THz frequency range at temperatures down to 10 K was demonstrated for the high-frequency characterization of thin high-temperature superconductor (HTSC) films.