Related papers: Speed limits and locality in many-body quantum dynamics

Speed limits and locality in many-body quantum dynamics

URL: http://arxiv.org/abs/2303.07386v2
Date: Fri, 22 Sep 2023 15:53:22 GMT
Title: Speed limits and locality in many-body quantum dynamics
Authors: Chi-Fang Chen, Andrew Lucas, Chao Yin
Abstract summary: We review the mathematical speed limits on quantum information processing in many-body systems. We highlight the most promising results and techniques, and discuss some central outstanding questions which remain open.
Score: 0.0
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We review the mathematical speed limits on quantum information processing in many-body systems. After the proof of the Lieb-Robinson Theorem in 1972, the past two decades have seen substantial developments in its application to other questions, such as the simulatability of quantum systems on classical or quantum computers, the generation of entanglement, and even the properties of ground states of gapped systems. Moreover, Lieb-Robinson bounds have been extended in non-trivial ways, to demonstrate speed limits in systems with power-law interactions or interacting bosons, and even to prove notions of locality that arise in cartoon models for quantum gravity with all-to-all interactions. We overview the progress which has occurred, highlight the most promising results and techniques, and discuss some central outstanding questions which remain open. To help bring newcomers to the field up to speed, we provide self-contained proofs of the field's most essential results.

Related papers

Quantum highway: Observation of minimal and maximal speed limits for few and many-body states [19.181412608418608]
Inspired by the energy-time uncertainty principle, bounds have been demonstrated on the maximal speed at which a quantum state can change. We show that one can test the known quantum speed limits and that modifying a single Hamiltonian parameter allows the observation of the crossover of the different bounds on the dynamics.
arXiv Detail & Related papers (2024-08-21T18:00:07Z)
Time optimal quantum state transfer in a fully-connected quantum computer [1.431386688501923]
We develop a new Quantum Brachistochrone method that can incorporate inequality constraints on the Hamiltonian. This method allows us to prove an exactly tight bound on the speed of QST on a subclass of Hamiltonians experimentally realizable by a fully-connected quantum computer.
arXiv Detail & Related papers (2023-03-08T18:59:09Z)
Quantum Speed Limit for Change of Basis [55.500409696028626]
We extend the notion of quantum speed limits to collections of quantum states. For two-qubit systems, we show that the fastest transformation implements two Hadamards and a swap of the qubits simultaneously. For qutrit systems the evolution time depends on the particular type of the unbiased basis.
arXiv Detail & Related papers (2022-12-23T14:10:13Z)
Entanglement-assisted quantum speedup: Beating local quantum speed limits [0.0]
Research in quantum information science aims to surpass the scaling limitations of classical information processing. Speed limits in interacting quantum systems are derived by comparing the rates of change in actual quantum dynamics. Proposed speed limits provide a tight bound on quantum speed advantage, including a quantum gain that can scale exponentially with the system's size.
arXiv Detail & Related papers (2022-11-27T17:38:57Z)
Stronger Quantum Speed Limit [0.0]
We prove a stronger quantum speed limit (SQSL) for all quantum systems undergoing arbitrary unitary evolution. The stronger quantum speed limit will have wide range of applications in quantum control, quantum computing and quantum information processing.
arXiv Detail & Related papers (2022-08-10T17:56:51Z)
Bounds in Nonequilibrium Quantum Dynamics [0.0]
We review various bounds concerning out-of-equilibrium dynamics in few-level many-body quantum systems. We primarily focus on closed quantum systems but will also mention some related results for open quantum systems and classical systems.
arXiv Detail & Related papers (2022-02-04T08:15:07Z)
Standard Model Physics and the Digital Quantum Revolution: Thoughts about the Interface [68.8204255655161]
Advances in isolating, controlling and entangling quantum systems are transforming what was once a curious feature of quantum mechanics into a vehicle for disruptive scientific and technological progress. From the perspective of three domain science theorists, this article compiles thoughts about the interface on entanglement, complexity, and quantum simulation.
arXiv Detail & Related papers (2021-07-10T06:12:06Z)
Simulation of Collective Neutrino Oscillations on a Quantum Computer [117.44028458220427]
We present the first simulation of a small system of interacting neutrinos using current generation quantum devices. We introduce a strategy to overcome limitations in the natural connectivity of the qubits and use it to track the evolution of entanglement in real-time.
arXiv Detail & Related papers (2021-02-24T20:51:25Z)
Imaginary Time Propagation on a Quantum Chip [50.591267188664666]
Evolution in imaginary time is a prominent technique for finding the ground state of quantum many-body systems. We propose an algorithm to implement imaginary time propagation on a quantum computer.
arXiv Detail & Related papers (2021-02-24T12:48:00Z)
Teleporting quantum information encoded in fermionic modes [62.997667081978825]
We consider teleportation of quantum information encoded in modes of a fermionic field. In particular, one is forced to distinguish between single-mode entanglement swapping, and qubit teleportation with or without authentication.
arXiv Detail & Related papers (2020-02-19T14:15:16Z)
Einselection from incompatible decoherence channels [62.997667081978825]
We analyze an open quantum dynamics inspired by CQED experiments with two non-commuting Lindblad operators. We show that Fock states remain the most robust states to decoherence up to a critical coupling.
arXiv Detail & Related papers (2020-01-29T14:15:19Z)

This list is automatically generated from the titles and abstracts of the papers in this site.