Topological Superconductivity: Materials, Measurement and Modeling II

FOCUS · MAR-B24 · ID: MAR-B24








Presentations

  • Invited-In-person · Invited

    Publication: 1. Sabin Gautam, et. al. "Anisotropic Raman Scattering and Lattice Orientation Identification of 2M-WS2". Nano Letters 25, 1076 (2025).
    2. A K M Manjur Hossain et. al. "Intercalation-Induced Topotactic Phase Transformation of Tungsten Disulfide Crystals". Chemistry of Materials 37, 129 (2025).
    3. Piumi I. Samarawickrama et. al. "Crossover from Conventional to Unconventional Superconductivity in 2M-WS2", Nano Letters 24, 16184 (2024).
    4. Sabin Gautam et. al. "Controllable superconducting to semiconducting phase transition in topological superconductor 2M-WS2". 2D Materials, 11, 015018 (2024).
    5. Piumi I. Samarawickrama et. al. "Two-dimensional 2M-WS2 Nanolayers for Superconductivity", ACS Omega, 6, 2966 (2021).

    Presenters

    • Jifa Tian

      • University of Wyoming

    Authors

    • Jifa Tian

      • University of Wyoming

    View abstract →

  • Oral-In-person

    Publication: 1) arXiv:2505.01522
    2) arXiv:2508.05030

    Presenters

    • Mohammad Balakan

      • University at Albany

    Authors

    • Mohammad Balakan

      • University at Albany
    • Ji Ung Lee

    • Genda Gu

      • Brookhaven National Laboratory (BNL)
    • Qiang Li

      • Stony Brook University and Brookhaven National Laboratory
    • Kenji Watanabe

      • National Institute for Materials Science
    • Takashi Taniguchi

      • National Institute for Materials Science

    View abstract →

  • Oral-In-person

    Presenters

    • Tatiana de Picoli Ferreira

      • Purdue University

    Authors

    • Tatiana de Picoli Ferreira

      • Purdue University
    • Sohee Kwon

      • Oak Ridge National Laboratory
    • Sinchul Yeom

      • Oak Ridge National Laboratory
    • Mina Yoon

      • Oak Ridge National Laboratory
    • Jukka Vayrynen

      • Purdue University
    • Satoshi Okamoto

      • Oak Ridge National Laboratory

    View abstract →

  • Oral-In-person

    Presenters

    • En-De Chu

      • University of California, Riverside

    Authors

    • En-De Chu

      • University of California, Riverside
    • Jason Tran

      • University of California, Riverside
    • Josep Ingla-Aynés

      • Massachusetts Institute of Technology
    • Daniel Silevitch

      • Caltech
    • Christopher Simon

      • Caltech
    • Thomas Rosenbaum

      • Caltech
    • Patrick Lee

      • Massachusetts Institute of Technology
    • Jagadeesh Moodera

      • Massachusetts Institute of Technology
    • Peng Wei

      • University of California

    View abstract →

  • Oral-In-person

    Publication: B. Bussiere, D. Brandão, B. Pekerten, J. E. Han, J. Marino, I. Žutić, "Kitaev chain under driving by classical electromagnetic field" (planned paper)
    B. Bussiere, D. Brandão, B. Pekerten, J. E. Han, J. Marino, I. Žutić, "Kitaev chain under driving by classical electromagnetic field: Beyond the non-dispersive limit" (planned paper)

    Presenters

    • Bailey Bussiere

      • University at Buffalo

    Authors

    • Bailey Bussiere

      • University at Buffalo
    • David Brandão

      • The State University of New York at Buffalo
    • Baris Pekerten

      • University at Buffalo, SUNY
    • Jamir Marino

      • SUNY Buffalo
    • Jong Han

      • State Univ of NY - Buffalo
    • Igor Zutic

      • State Univ of NY - Buffalo

    View abstract →

  • Oral-In-person

    Publication: 1. D. S. Brandão, B. Pekerten, B. Bussiere, D. Monroe, J. E. Han, and I. Žutić, Evolution of microwave spectroscopy with multiple Andreev levels. Preprint, 2025.
    2. B. Pekerten, D. Brandao, B. H. Elfeky, T. Zhou, J. E. Han, J. Shabani, I. Žutić, Microwave Signatures of Topological Superconductivity in Planar Josephson Junctions, Phys. Rev. B 110, L060513 (2024)
    3. B. Pekerten, D. S. Brandão, B. Bussiere, D. Monroe, T. Zhou, J. E. Han, J. Shabani, A. Matos-Abiague, I. Žutić, Beyond the Standard Model of Topological Josephson Junctions: From Crystalline Anisotropy to Finite-Size and Diode Effects, Appl. Phys. Lett. 124, 252602 (2024)
    4. B. H. Elfeky, K. Dindial, D. S. Brandão, B. Pekerten, J. Lee, W. M. Strickland, P. J. Strohbeen, A. Danilenko, L. Baker, M. Mikalsen, W. Schiela, Z. Liang, J. Issokson, I. Levy, I. Žutić, J. Shabani, Microwave Andreev Bound State Spectroscopy in a Semiconductor-Based Planar Josephson Junction, Phys. Rev. Research 7, 013248 (2025)

    Presenters

    • David Brandão

      • The State University of New York at Buffalo

    Authors

    • David Brandão

      • The State University of New York at Buffalo
    • Baris Pekerten

      • University at Buffalo, SUNY
    • Bailey Bussiere

      • University at Buffalo
    • David Monroe

      • State Univ of NY - Buffalo
    • Jong Han

      • State Univ of NY - Buffalo
    • Javad Shabani

      • New York University (NYU)
    • Igor Zutic

      • State Univ of NY - Buffalo

    View abstract →

  • Oral-In-person

    Presenters

    • Enrico Rossi

      • William & Mary

    Authors

    • Clark Travaglini

    • Eu-De Chu

    • Jason Tran

      • University of California, Riverside
    • Peter Kerns

    • Oki Gunawan

      • IBM Thomas J. Watson Research Center
    • Teodor Todorov

    • John Bruley

    • Vesna Stanic

    • Christian Lavoie

      • IBM TJ Watson Research Center
    • Peng Wei

      • University of California
    • Enrico Rossi

      • William & Mary
    • Ching-Tzu Chen

      • IBM Thomas J. Watson Research Center
    • Wei Pan

      • Sandia National Laboratories

    View abstract →

  • Oral-In-person

    Presenters

    • Zhuo Chen

      • University of Tennessee

    Authors

    • Zhuo Chen

      • University of Tennessee
    • xuefeng wu

      • Southern University of Science and Technology
    • Yuchang Cai

      • University of Tennessee, Knoxville
    • Fangfei Ming

    • Steven Johnston

      • University of Tennessee
    • Ruixing Zhang

      • University of Tennessee
    • Hanno Weitering

      • University of Tennessee
    • Kedong Wang

    • Xuan Hao

    • Minghao Wu

    • Congrun Chen

    View abstract →