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.
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On ageing and critical thickness of YBa2Cu3O7 films on Si with CeO2/YSZ buffer layers
TL;DR: In this paper, the ageing behavior of epitaxial YBa 2 Cu 3 O 7 (YBCO) films on Si (100) with CeO 2 /YSZ buffer layers is studied.
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Cryogenic mechanical loss measurements of heat-treated hafnium dioxide
M. R. Abernathy,Stuart Reid,E. Chalkley,Riccardo Bassiri,I. W. Martin,K. Evans,Martin M. Fejer,A. M. Gretarsson,Gregory M. Harry,J. H. Hough,Ian MacLaren,A. S. Markosyan,P. G. Murray,Ronny Nawrodt,S. Penn,Roger K. Route,Sheila Rowan,Paul Seidel +17 more
TL;DR: In this article, the temperature dependence of the mechanical loss of ion-beam sputtered hafnium dioxide (HfO2) coatings that have undergone heat treatment is investigated.
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Effect of noise and capacitance on the dynamical characteristics of high‐Tc Josephson junctions
TL;DR: In this paper, the dynamical characteristics of Josephson junctions at finite temperatures are simulated in the resistively shunted junction model including a capacitance and a current source producing white noise.
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Anomalous Inner-Gap Structure in Transport Characteristics of Superconducting Junctions with Degraded Interfaces
TL;DR: This work explains unexpected features in related transport characteristics as an effect of a degraded nanoscaled sheath at the superconductor surface to capture the main aspects of the ballistic charge transport across hybrid superconducting structures with normally conducting nanometer-thick interlayers.
Journal Article
Pump and Probe Terahertz Generation Study of Ultrafast Carrier Dynamics in Low-Temperature Grown-GaAs : Optical Properties of Condensed Matter
TL;DR: In this article, a pump and probe terahertz (THz) generation technique was used to measure the THz radiation excited by probe femtosecond optical pulses; the pump pulses were used to inject electron-hole pairs prior to the probe pulses.