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Signaling and scrambling with strongly long-range interactions
Andrew Guo - University of Maryland
Friday, September 6, 2019, 12:00-12:40 pm Calendar
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Strongly long-range interacting quantum systems---those with interactions decaying as a power-law 1/r^α in the distance r on a D-dimensional lattice for α ≤ D---have received significant interest in recent years. They are present in leading experimental platforms for quantum computation and simulation, as well as in theoretical models of quantum information scrambling and fast entanglement creation. Since no notion of locality is expected in such systems, a general understanding of their dynamics is lacking. As a first step towards rectifying this problem, we prove two new Lieb-Robinson-type bounds that constrain the time for signaling and scrambling in strongly long-range interacting systems, for which no tight bounds were previously known. Our first bound applies to systems mappable to free-particle Hamiltonians with long-range hopping, and is saturable for α ≤ D/2. Our second bound pertains to generic long-range interacting spin Hamiltonians, and leads to a tight lower bound for the signaling time to extensive subsets of the system for all α < D. This result also lower-bounds the scrambling time, and suggests a path towards achieving a tight scrambling bound that can prove the long-standing fast scrambling conjecture.

Pizza and drinks will be served at 12pm, 10 minutes before the talk.

This talk is organized by Andrea F. Svejda