Materials Map

Discover the materials research landscape. Find experts, partners, networks.

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The Materials Map is an open tool for improving networking and interdisciplinary exchange within materials research. It enables cross-database search for cooperation and network partners and discovering of the research landscape.

The dashboard provides detailed information about the selected scientist, e.g. publications. The dashboard can be filtered and shows the relationship to co-authors in different diagrams. In addition, a link is provided to find contact information.

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Materials Map under construction

The Materials Map is still under development. In its current state, it is only based on one single data source and, thus, incomplete and contains duplicates. We are working on incorporating new open data sources like ORCID to improve the quality and the timeliness of our data. We will update Materials Map as soon as possible and kindly ask for your patience.

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1.080 Topics available

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977 Locations available

693.932 PEOPLE
693.932 People People

693.932 People

Show results for 693.932 people that are selected by your search filters.

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Jung, Jason

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Eindhoven University of Technology

in Cooperation with on an Cooperation-Score of 37%

Topics

Publications (6/6 displayed)

  • 2024Parity-conserving Cooper-pair transport and ideal superconducting diode in planar germanium42citations
  • 2024Parity-conserving Cooper-pair transport and ideal superconducting diode in planar germanium42citations
  • 2023Radio frequency driven superconducting diode and parity conserving Cooper pair transport in a two-dimensional germanium hole gascitations
  • 2021Parity-preserving and magnetic field–resilient superconductivity in InSb nanowires with Sn shells81citations
  • 2020In-plane selective area InSb–Al nanowire quantum networks52citations
  • 2020In-plane selective area InSb–Al nanowire quantum networks52citations

Places of action

Chart of shared publication
Aguilera Servin, Juan L.
1 / 1 shared
Sagi, Oliver
3 / 5 shared
Seoane Souto, Rubén
2 / 3 shared
Bakkers, Erik
4 / 8 shared
Valentini, Marco
3 / 5 shared
Janik, Marian
3 / 4 shared
Aggarwal, Kushagra
2 / 2 shared
Chrastina, Daniel
3 / 11 shared
Isella, Giovanni
3 / 23 shared
Katsaros, Georgios
3 / 5 shared
De Gijsel, Thijs
2 / 2 shared
Danon, Jeroen
3 / 4 shared
Adletzberger, Thomas
3 / 3 shared
Ballabio, Andrea
3 / 7 shared
Baghumyan, Levon
3 / 4 shared
Calcaterra, Stefano
3 / 5 shared
Schrade, Constantin
3 / 3 shared
Leijnse, Martin
3 / 6 shared
Aguilera-Servin, Juan
1 / 1 shared
Gijsel, Thijs De
1 / 1 shared
Souto, Rubén Seoane
1 / 1 shared
Servin, Juan Aguilera
1 / 1 shared
Badawy, Ghada
1 / 6 shared
Bakkers, E. P. A. M.
1 / 19 shared
Lee, Joon Sue
2 / 4 shared
Zhang, Bomin
1 / 3 shared
Gazibegovic, Sasa
1 / 6 shared
Veld, Roy Op Het
1 / 1 shared
Hocevar, Moïra
1 / 6 shared
Pendharkar, Mihir
3 / 8 shared
Rossi, Marco
1 / 19 shared
Frolov, Sergey M.
1 / 4 shared
Dempsey, Connor
1 / 3 shared
Palmstrøm, C. J.
1 / 10 shared
Bakkers, Erik P. A. M.
1 / 18 shared
Koelling, Sebastian
2 / 11 shared
Peters, Stan M. E.
2 / 2 shared
Marzegalli, Anna
2 / 21 shared
Zhang, Hao
1 / 24 shared
Hesselmann, Bart
2 / 2 shared
Sarikov, Andrey
2 / 8 shared
Palmstrøm, Chris J.
2 / 8 shared
Bommer, Jouri D. S.
2 / 3 shared
De Moor, Michiel W. A.
1 / 2 shared
Miglio, Leo
2 / 16 shared
Schaller, Vanessa
2 / 2 shared
Wang, Qingzhen
2 / 2 shared
Vermeulen, Kiefer
2 / 2 shared
Sue Lee, Joon
1 / 1 shared
Xu, Di
2 / 2 shared
Verheijen, Marcel A.
1 / 39 shared
Kouwenhoven, Leo P.
2 / 17 shared
Op Het Veld, Roy L. M.
1 / 1 shared
Tong, Chuyao
2 / 2 shared
Veld, Roy L. M. Op Het
1 / 2 shared
Moor, Michiel W. A. De
1 / 1 shared
Chart of publication period
2024
2023
2021
2020

Co-Authors (by relevance)

  • Aguilera Servin, Juan L.
  • Sagi, Oliver
  • Seoane Souto, Rubén
  • Bakkers, Erik
  • Valentini, Marco
  • Janik, Marian
  • Aggarwal, Kushagra
  • Chrastina, Daniel
  • Isella, Giovanni
  • Katsaros, Georgios
  • De Gijsel, Thijs
  • Danon, Jeroen
  • Adletzberger, Thomas
  • Ballabio, Andrea
  • Baghumyan, Levon
  • Calcaterra, Stefano
  • Schrade, Constantin
  • Leijnse, Martin
  • Aguilera-Servin, Juan
  • Gijsel, Thijs De
  • Souto, Rubén Seoane
  • Servin, Juan Aguilera
  • Badawy, Ghada
  • Bakkers, E. P. A. M.
  • Lee, Joon Sue
  • Zhang, Bomin
  • Gazibegovic, Sasa
  • Veld, Roy Op Het
  • Hocevar, Moïra
  • Pendharkar, Mihir
  • Rossi, Marco
  • Frolov, Sergey M.
  • Dempsey, Connor
  • Palmstrøm, C. J.
  • Bakkers, Erik P. A. M.
  • Koelling, Sebastian
  • Peters, Stan M. E.
  • Marzegalli, Anna
  • Zhang, Hao
  • Hesselmann, Bart
  • Sarikov, Andrey
  • Palmstrøm, Chris J.
  • Bommer, Jouri D. S.
  • De Moor, Michiel W. A.
  • Miglio, Leo
  • Schaller, Vanessa
  • Wang, Qingzhen
  • Vermeulen, Kiefer
  • Sue Lee, Joon
  • Xu, Di
  • Verheijen, Marcel A.
  • Kouwenhoven, Leo P.
  • Op Het Veld, Roy L. M.
  • Tong, Chuyao
  • Veld, Roy L. M. Op Het
  • Moor, Michiel W. A. De
OrganizationsLocationPeople

article

Parity-preserving and magnetic field–resilient superconductivity in InSb nanowires with Sn shells

  • Badawy, Ghada
  • Bakkers, E. P. A. M.
  • Jung, Jason
  • Lee, Joon Sue
  • Zhang, Bomin
  • Gazibegovic, Sasa
  • Veld, Roy Op Het
  • Hocevar, Moïra
  • Pendharkar, Mihir
  • Rossi, Marco
  • Frolov, Sergey M.
  • Dempsey, Connor
  • Palmstrøm, C. J.
Abstract

<jats:title>Move aside, aluminum</jats:title><jats:p>Some of the most promising schemes for quantum information processing involve superconductors. In addition to the established superconducting qubits, topological qubits may one day be realized in semiconductor-superconductor heterostructures. The superconductor most widely used in this context is aluminum, in which processes that cause decoherence are suppressed. Pendharkar<jats:italic>et al.</jats:italic>go beyond this paradigm to show that superconducting tin can be used in place of aluminum (see the Perspective by Fatemi and Devoret). The authors grew nanowires of indium antimonide, which is a semiconductor, and coated them with a thin layer of tin without using cumbersome epitaxial growth techniques. This process creates a well-defined, “hard” superconducting gap in the nanowires, which is a prerequisite for using them as the basis for a potential topological qubit.</jats:p><jats:p><jats:italic>Science</jats:italic>, this issue p.<jats:related-article issue="6541" page="508" related-article-type="in-this-issue" vol="372">508</jats:related-article>; see also p.<jats:related-article issue="6541" page="464" related-article-type="in-this-issue" vol="372">464</jats:related-article></jats:p>

Topics
  • impedance spectroscopy
  • aluminium
  • semiconductor
  • tin
  • Indium
  • superconductivity
  • superconductivity