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Ivan Sadovskyy
Researcher at Argonne National Laboratory
Publications - 14
Citations - 331
Ivan Sadovskyy is an academic researcher from Argonne National Laboratory. The author has contributed to research in topics: Quantum & Second law of thermodynamics. The author has an hindex of 7, co-authored 13 publications receiving 283 citations. Previous affiliations of Ivan Sadovskyy include Rutgers University.
Papers
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Scattering matrix approach to the description of quantum electron transport
Gordey B. Lesovik,Ivan Sadovskyy +1 more
TL;DR: In this article, the scattering matrix approach to quantum electron transport in meso- and nanoconductors is considered, and the authors provide a description of both time-averaged quantities (for example, currentvoltage characteristics) and current fluctuations in time.
Journal ArticleDOI
Scattering matrix approach to the description of quantum electron transport
Gordey B. Lesovik,Ivan Sadovskyy +1 more
TL;DR: In this paper, the scattering matrix approach to quantum electron transport in meso- and nano-conductors is considered, and a description of both time-averaged quantities (for example, current-voltage characteristics) and current fluctuations in time is provided.
Journal ArticleDOI
Simulation of the Vortex Dynamics in a Real Pinning Landscape of YBa 2 Cu 3 O 7 -δ Coated Conductors
Ivan Sadovskyy,Alexei Koshelev,Andreas Glatz,Andreas Glatz,Volkan Ortalan,Martin W. Rupich,Maxime Leroux +6 more
TL;DR: In this paper, the authors present a critical current analysis of a real HTS sample in a magnetic field by combining state-of-the-art large-scale Ginzburg-Landau simulations with reconstructive three-dimensional scanning-transmission-electron-microscopy tomography of the pinning landscape in Dy-doped YBa2Cu3O7-δ.
Journal ArticleDOI
H-theorem in quantum physics.
TL;DR: In this paper, the authors formulate the quantum H-theorem in terms of physical observables and demonstrate that the typical evolution of energy-isolated quantum systems occurs with non-diminishing entropy.
Journal ArticleDOI
InAs-Al hybrid devices passing the topological gap protocol
Morteza Aghaee,Arun Goud Akkala,Zulfiqar Alam,Rizwan Ali,Alejandro Ramirez,Mariusz Andrzejczuk,Andrey E. Antipov,Pavel Aseev,Mikhail A. Astafev,Bela Bauer,J. Becker,Srinivasa Rao Boddapati,Frenk Boekhout,Jouri D. S. Bommer,E. B. Hansen,Tom Bosma,L. Bourdet,Samuel Boutin,Philippe Caroff,Lucas Casparis,Maja C. Cassidy,Anna Wulff Christensen,Noah Clay,William S. Cole,Fabiano Corsetti,Ajuan Cui,Paschalis Dalampiras,Anand Dokania,G. de Lange,Michiel W. A. de Moor,J. C. Estrada Saldaña,Saeed Fallahi,Zahra Heidarnia Fathabad,John King Gamble,Geoffrey C. Gardner,Deshanie Govender,Flavio Griggio,Ruben Grigoryan,Sergei Gronin,Jan Gukelberger,Sebastian Heedt,Jesús Herranz Zamorano,Samantha Ho,U. Laurens D. Holgaard,William H. P. Nielsen,Henrik Ingerslev,Peter Krogstrup,Linda I. M. Johansson,Jeffrey Jones,Ray Kallaher,Farhad Karimi,Torsten Karzig,Cameron N. King,Maren E. Kloster,Christina Knapp,D. Kocon,Jonne V. Koski,Pasi Kostamo,Mahesh Kumar,Tom Laeven,T. W. Larsen,Kongyi Li,Tyler Lindemann,Julie Helen Love,Roman M. Lutchyn,Michael J. Manfra,Elvedin Memisevic,Chetan Nayak,Bas Nijholt,Morten Hannibal Madsen,Signe B. Markussen,E. A. Martínez,Robert McNeil,Andrew Mullally,Jens H. Nielsen,Anne Nurmohamed,Eoin O'Farrell,Keita Otani,S. J. Pauka,Karl Petersson,L. Petit,Dima Pikulin,Frank Santa Cruz Preiss,Marina Quintero Perez,Katrine Skovgaard Rasmussen,Mohana K. Rajpalke,Davydas Razmadze,Outi Reentila,David J. Reilly,Richard Rouse,Ivan Sadovskyy,Lauri Sainiemi,Sydney Schreppler,V. G. Sidorkin,Amrita Singh,Shilpi Singh,S.P. Sinha,Patrick Sohr,Tomavs Stankevivc,Lieuwe J Stek,Henri J. Suominen,Judith Suter,V. N. Svidenko,Samuel M. L. Teicher,Mine Temuerhan,Nivetha Thiyagarajah,R. Tholapi,Mason Thomas,Emily Toomey,Shivendra Upadhyay,Ivica Urban,S. Vaitiek.enas,Kevin Van Hoogdalem,D V Viazmitinov,S. J. Waddy,D. J. van Woerkom,Dominik Vogel,John Watson,Joseph Weston,Georg W. Winkler,Chung-Kai Yang,Sean Shun Ming Yau,Daniel Choong Zhi Yi,E. Yucelen,A. Webster,Roland Zeisel,Ruichen Zhao +126 more
TL;DR: In this article , the authors present measurements and simulations of semiconductor-superconductor heterostructure devices that are consistent with the observation of topological superconductivity and Majorana zero modes.