APS Logo

Noisy Hardware Applications II

FOCUS · T64 · ID: 1067456

Presentations

  • Experimental observation of measurement induced phase transitions using linear cross-entropy

    ORAL

    Presenters

    • Hirsh Kamakari

      California Institute of Technology

    Authors

    • Hirsh Kamakari

      California Institute of Technology

    • Jonathan J Thio

      University of Oxford

    • Yaodong Li

      Stanford University

    • Jin Ming Koh

      California Institute of Technology

    • Matthew A Fisher

      University of California, Santa Barbara

    • Austin J Minnich

      California Institute of Technology

    View abstract →

  • Quantum-enhanced Markov chain Monte Carlo

    ORAL · Invited

    Publication: D. Layden, G. Mazzola, R. V. Mishmash, M. Motta, P. Wocjan, J.-S. Kim, and S. Sheldon, arXiv:2203.12497 (2022).

    Presenters

    • David Layden

      IBM Research - Almaden, IBM Quantum

    Authors

    • David Layden

      IBM Research - Almaden, IBM Quantum

    View abstract →

  • Using measurements to reduce circuit depth: Deterministic preparation of the AKLT state in constant-time on an IBM Quantum processor

    ORAL

    Publication: Deterministic preparation of the AKLT state with a finite-depth circuit augmented by measurements (in preparation)

    Presenters

    • Kevin C Smith

      Yale University, Brookhaven National Laboratory, Yale University

    Authors

    • Kevin C Smith

      Yale University, Brookhaven National Laboratory, Yale University

    • Eleanor Crane

      Joint Quantum Institute, University of Maryland

    • Nathan Wiebe

      University of Toronto, Pacific Northwest National Laboratory, University of Toronto, Pacific Northwest Natl Lab

    • Steven M Girvin

      Yale University

    View abstract →

  • Quantum State Preparation on a Superconducting Qubit Lattice

    ORAL

    Presenters

    • Sarah E Muschinske

      Massachusetts Institute of Technology MIT

    Authors

    • Sarah E Muschinske

      Massachusetts Institute of Technology MIT

    • Miguel Moreira

      Massachusetts Institute of Technology (MIT)

    • Ilan T Rosen

      Stanford Univ, Massachusetts Institute of Technology

    • Kasper Poulsen

      Aarhus University

    • Amir H Karamlou

      Massachusetts Institute of Technology MIT, Massachusetts Institute of Technology

    • Cora N Barrett

      Wellesley College

    • Patrick M Harrington

      Massachusetts Institute of Technology MIT, Massachusetts Institute of Technology (MIT), Massachusetts Institute of Technology

    • Thomas M Hazard

      MIT Lincoln Lab, MIT Lincoln Laboratory

    • Mollie E Schwartz

      MIT Lincoln Laboratory

    • Jonilyn L Yoder

      MIT Lincoln Lab, MIT Lincoln Laboratory

    • Simon Gustavsson

      Massachusetts Institute of Technology MIT, Massachusetts Institute of Technology

    • Jeffrey A Grover

      Massachusetts Institute of Technology MIT, Massachusetts Institute of Technology (MIT), Massachusetts Institute of Technology

    • Kyle Serniak

      MIT Lincoln Laboratory

    • Norm M Tubman

      University of California, Berkeley, NASA Ames Research Center

    • William D Oliver

      Massachusetts Institute of Technology MIT, Massachusetts Institute of Technology (MIT), MIT Lincoln Laboratory, Massachusetts Institute of Technology (MIT), Massachusetts Institute of Technology, Massachusetts Institute of Technology, MIT Lincoln Laboratory

    View abstract →

  • Implementing Lattice Gauge Theories on Quantum Computers

    ORAL

    Publication: J. Mildenberger, W. Mruczkiewicz, J. C. Halimeh, Z. Jiang, P. Hauke, Probing Confinement in a Z2 Lattice Gauge Theory on a Quantum Computer (2022), arXiv:2203.08905 [quant-ph]

    Presenters

    • Julius Mildenberger

      INO-CNR BEC Center and Department of Physics, University of Trento, University of Trento

    Authors

    • Julius Mildenberger

      INO-CNR BEC Center and Department of Physics, University of Trento, University of Trento

    • Wojtek Mruczkiewicz

      Google Quantum AI

    • Jad Halimeh

      INO-CNR BEC Center and Department of Physics, University of Trento; Department of Physics and ASC, Ludwig-Maximilians-Universität München; MCQST, Munich

    • Zhang Jiang

      Google Quantum AI, Google LLC

    • Philipp Hauke

      INO-CNR BEC Center and Department of Physics, University of Trento

    View abstract →

  • Quantum Neuronal Sensing on a 61-Qubit NISQ Superconducting Processor

    ORAL

    Publication: 1) Ming Gong et.al, Quantum walks on a programmable two-dimensional 62-qubit superconducting processor, Science 372 (6545), 948 - 952 (2021).<br>2) Ming Gong et.al, Quantum Neuronal Sensing of Quantum Many-Body States on a 61-Qubit Programmable Superconducting Processor, arXiv:2201.05957

    Presenters

    • William J Munro

      NTT Basic Research Labs

    Authors

    • William J Munro

      NTT Basic Research Labs

    • Ming Gong

      USTC

    • He-Liang Huang

      USTC

    • Shiyu Wang

      USTC

    • Chu Guo

      USTC

    • Shaowei Li

      USTC

    • Yulin Wu

      USTC

    • Qingling Zhu

      USTC

    • Youwei Zhao

      USTC

    • Shaojun Guo

      USTC

    • Haoran Qian

      USTC

    • Yangsen Ye

      USTC

    • Chen Zha

      USTC

    • Fusheng Chen

      USTC

    • Chong Ying

      USTC

    • Jiale Yu

      USTC

    • Daojin Fan

      USTC

    • Akitada Sakurai

      OSIT

    • Kae Nemoto

      OIST, Okinawa Institute of Science & Technology

    • Yong-Heng Huo

      USTC

    • Chao-Yang Lu

      USTC

    • Cheng-Zhi Peng

      USTC

    • Xiaobo Zhu

      USTC

    • Jian-Wei Pan

      USTC

    View abstract →