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Sculpting quantum phases of matter and quantum error correcting codes with measurements

04/08 2024 KITS-IOP-ITP Joint Seminar
  • Title Sculpting quantum phases of matter and quantum error correcting codes with measurements
  • Speaker Nat Tantivasadakarn (Caltech)
  • Date 10:00 Apr. 8, 2024
  • Venue M830, IOP-CAS
    • Abstract
    Quantum mechanics exhibits a stark dichotomy between unitary time-evolution and measurement. These aspects are further contrasted by the fact that traditional many-body quantum theory is developed solely based on unitary aspects. In this talk, I will explore two fruitful synergies that emerge from the interplay between many-body quantum physics and the non-equilibrium quantum dynamics that arises from measurements. First, I will show how measurements can be used to circumvent fundamental constraints imposed by unitary dynamics and efficiently prepare a large class of topological phases of matter. In addition to discovering a new hierarchy of many-body quantum states unseen in the unitary setup and a surprising connection to the unsolvability of the quintic polynomial, our studies also yield practical protocols for quantum processors that led to the first unambiguous observation of non-Abelian anyons. Second, I will show how insights from topological phases of matter can in turn contribute to a physical understanding of the newly introduced "Floquet" quantum error correcting codes, featuring a schedule of anticommuting measurements. I will demonstrate that periodicity in time is in fact not required, unlocking a more general construction of "dynamic codes" that are capable of not just error correction, but also fault-tolerant quantum computation without requiring any unitary evolution.
    References:
    [1] Mohsin Iqbal#, Nathanan Tantivasadakarn#, Ruben Verresen#, ..., Ashvin Vishwanath, Henrik Dreyer*, Nature 626 (2024) 505-511.
    [2] Margarita Davydova#, Nathanan Tantivasadakarn#, Shankar Balasubramanian#, David Aasen, arXiv:2307.10353.

    Biography
    Nat Tantivasadakarn obtained his Ph.D. from Harvard University and is currently a Burke postdoctoral fellow at Caltech. His research interests explore the interplay between topological phases of matter, quantum error correction and computation, non-equilibrium quantum dynamics and generalized symmetries.

    Inviter
    Hao Song