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arxiv: 2409.17142 · v2 · pith:DLVDMRDBnew · submitted 2024-09-25 · 🪐 quant-ph · cond-mat.str-el· hep-lat

Visualizing Dynamics of Charges and Strings in (2+1)D Lattice Gauge Theories

Tyler A. Cochran , Bernhard Jobst , Eliott Rosenberg , Yuri D. Lensky , Gaurav Gyawali , Norhan Eassa , Melissa Will , Dmitry Abanin
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Rajeev Acharya Laleh Aghababaie Beni Trond I. Andersen Markus Ansmann Frank Arute Kunal Arya Abraham Asfaw Juan Atalaya Ryan Babbush Brian Ballard Joseph C. Bardin Andreas Bengtsson Alexander Bilmes Alexandre Bourassa Jenna Bovaird Michael Broughton David A. Browne Brett Buchea Bob B. Buckley Tim Burger Brian Burkett Nicholas Bushnell Anthony Cabrera Juan Campero Hung-Shen Chang Zijun Chen Ben Chiaro Jahan Claes Agnetta Y. Cleland Josh Cogan Roberto Collins Paul Conner William Courtney Alexander L. Crook Ben Curtin Sayan Das Sean Demura Laura De Lorenzo Agustin Di Paolo Paul Donohoe Ilya Drozdov Andrew Dunsworth Alec Eickbusch Aviv Moshe Elbag Mahmoud Elzouka Catherine Erickson Vinicius S. Ferreira Leslie Flores Burgos Ebrahim Forati Austin G. Fowler Brooks Foxen Suhas Ganjam Robert Gasca \'Elie Genois William Giang Dar Gilboa Raja Gosula Alejandro Grajales Dau Dietrich Graumann Alex Greene Jonathan A. Gross Steve Habegger Monica Hansen Matthew P. Harrigan Sean D. Harrington Paula Heu Oscar Higgott Jeremy Hilton Hsin-Yuan Huang Ashley Huff William J. Huggins Evan Jeffrey Zhang Jiang Cody Jones Chaitali Joshi Pavol Juhas Dvir Kafri Hui Kang Amir H. Karamlou Kostyantyn Kechedzhi Trupti Khaire Tanuj Khattar Mostafa Khezri Seon Kim Paul V. Klimov Bryce Kobrin Alexander N. Korotkov Fedor Kostritsa John Mark Kreikebaum Vladislav D. Kurilovich David Landhuis Tiano Lange-Dei Brandon W. Langley Kim-Ming Lau Justin Ledford Kenny Lee Brian J. Lester Lo\"ick Le Guevel Wing Yan Li Alexander T. Lill William P. Livingston Aditya Locharla Daniel Lundahl Aaron Lunt Sid Madhuk Ashley Maloney Salvatore Mandr\`a Leigh S. Martin Orion Martin Cameron Maxfield Jarrod R. McClean Matt McEwen Seneca Meeks Anthony Megrant Kevin C. Miao Reza Molavi Sebastian Molina Shirin Montazeri Ramis Movassagh Charles Neill Michael Newman Anthony Nguyen Murray Nguyen Chia-Hung Ni Murphy Yuezhen Niu William D. Oliver Kristoffer Ottosson Alex Pizzuto Rebecca Potter Orion Pritchard Chris Quintana Ganesh Ramachandran Matthew J. Reagor David M. Rhodes Gabrielle Roberts Kannan Sankaragomathi Kevin J. Satzinger Henry F. Schurkus Michael J. Shearn Aaron Shorter Noah Shutty Vladimir Shvarts Volodymyr Sivak Spencer Small W. Clarke Smith Sofia Springer George Sterling Jordan Suchard Aaron Szasz Alex Sztein Douglas Thor M. Mert Torunbalci Abeer Vaishnav Justin Vargas Sergey Vdovichev Guifre Vidal Catherine Vollgraff Heidweiller Steven Waltman Shannon X. Wang Brayden Ware Theodore White Kristi Wong Bryan W. K. Woo Cheng Xing Z. Jamie Yao Ping Yeh Bicheng Ying Juhwan Yoo Noureldin Yosri Grayson Young Adam Zalcman Yaxing Zhang Ningfeng Zhu Nicholas Zobris Sergio Boixo Julian Kelly Erik Lucero Yu Chen Vadim Smelyanskiy Hartmut Neven Adam Gammon-Smith Frank Pollmann Michael Knap Pedram Roushan
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classification 🪐 quant-ph cond-mat.str-elhep-lat
keywords dynamicsstringexcitationslatticeconfinedconfinementdynamicalelectric
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Lattice gauge theories (LGTs) can be employed to understand a wide range of phenomena, from elementary particle scattering in high-energy physics to effective descriptions of many-body interactions in materials. Studying dynamical properties of emergent phases can be challenging as it requires solving many-body problems that are generally beyond perturbative limits. Here, we investigate the dynamics of local excitations in a $\mathbb{Z}_2$ LGT using a two-dimensional lattice of superconducting qubits. We first construct a simple variational circuit which prepares low-energy states that have a large overlap with the ground state; then we create charge excitations with local gates and simulate their quantum dynamics via a discretized time evolution. As the electric field coupling constant is increased, our measurements show signatures of transitioning from deconfined to confined dynamics. For confined excitations, the electric field induces a tension in the string connecting them. Our method allows us to experimentally image string dynamics in a (2+1)D LGT from which we uncover two distinct regimes inside the confining phase: for weak confinement the string fluctuates strongly in the transverse direction, while for strong confinement transverse fluctuations are effectively frozen. In addition, we demonstrate a resonance condition at which dynamical string breaking is facilitated. Our LGT implementation on a quantum processor presents a novel set of techniques for investigating emergent excitations and string dynamics.

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