Exploring Many-body Interactions Through Quantum Fisher Information
- URL: http://arxiv.org/abs/2401.01824v2
- Date: Mon, 1 Jul 2024 14:36:35 GMT
- Title: Exploring Many-body Interactions Through Quantum Fisher Information
- Authors: Paweł Cieśliński, Paweł Kurzyński, Tomasz Sowiński, Waldemar Kłobus, Wiesław Laskowski,
- Abstract summary: Many-body interactions can lead to faster entanglement generation, multiqubit gate implementation and improved error correction.
We show the possibility of detecting many-body couplings for a given Hamiltonian by observing violations of an appropriate bound.
- Score: 0.0
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: The investigation of many-body interactions holds significant importance in both quantum foundations and information. Hamiltonians coupling multiple particles at once, beyond others, can lead to a faster entanglement generation, multiqubit gate implementation and improved error correction. As an increasing number of quantum platforms enable the realization of such physical settings, it becomes interesting to study the verification of many-body interaction resources. In this work, we explore the possibility of higher-order couplings detection through the quantum Fisher information. For a family of symmetric and translationally invariant $k$-body Ising-like Hamiltonians, we derive the bounds on the quantum Fisher information in product states. Due to its ordering with respect to the order of interaction, we demonstrate the possibility of detecting many-body couplings for a given Hamiltonian from the discussed family by observing violations of an appropriate bound. As a possible extension to these observations, we further analyse an example concerning the three-body interaction detection in the XY model.
Related papers
- Evolution of multi-qubit correlations driven by mutual interactions [49.1574468325115]
We analyze the evolution of the correlation tensor elements of quantum systems composed of $frac12$-spins.<n>We show how a strong external field can play a stabilizing factor with respect to certain correlation characteristics.
arXiv Detail & Related papers (2025-07-01T11:45:08Z) - Effects of the Hubbard interaction on the quantum metric [0.0]
We investigate the role of interaction effects on the quantum metric.
We show that the repulsive Hubbard interaction monotonically suppresses the quantum metric.
Our conclusion holds for both flat-band and dispersive systems.
arXiv Detail & Related papers (2024-12-03T19:00:03Z) - Realizing fracton order from long-range quantum entanglement in programmable Rydberg atom arrays [45.19832622389592]
Storing quantum information requires battling quantum decoherence, which results in a loss of information over time.
To achieve error-resistant quantum memory, one would like to store the information in a quantum superposition of degenerate states engineered in such a way that local sources of noise cannot change one state into another.
We show that this platform also allows to detect and correct certain types of errors en route to the goal of true error-resistant quantum memory.
arXiv Detail & Related papers (2024-07-08T12:46:08Z) - Lattice Hamiltonians and Stray Interactions Within Quantum Processors [0.6053347262128919]
This study highlights the significance of incorporating the lattice Hamiltonian into quantum circuit design.
By comparing the intensity of three-body versus two-body stray couplings, we identify non-trivial circuit parameter domains that help to enhance fidelity of two-qubit gates.
arXiv Detail & Related papers (2024-02-14T12:52:48Z) - Quantum sensing of even- versus odd-body interactions [0.0]
We analyze the scaling of quantum Fisher information with the number of system particles in the limit of large number of particles.<n>We find that estimation of coupling strength of arbitrary-body encoding Hamiltonians provide a super-Heisenberg scaling.
arXiv Detail & Related papers (2024-01-12T17:59:55Z) - Quantifying High-Order Interdependencies in Entangled Quantum States [43.70611649100949]
We introduce the Q-information: an information-theoretic measure capable of distinguishing quantum states dominated by synergy or redundancy.
We show that quantum systems need at least four variables to exhibit high-order properties.
Overall, the Q-information sheds light on novel aspects of the internal organisation of quantum systems and their time evolution.
arXiv Detail & Related papers (2023-10-05T17:00:13Z) - Universal shot-noise limit for quantum metrology with local Hamiltonians [2.624076371876711]
We derive a universal and fundamental bound for the growth of the quantum Fisher information.
We prove that the precision cannot surpass the shot noise limit at all times in locally interacting quantum systems.
arXiv Detail & Related papers (2023-08-07T16:13:01Z) - Dipolar quantum solids emerging in a Hubbard quantum simulator [45.82143101967126]
Long-range and anisotropic interactions promote rich spatial structure in quantum mechanical many-body systems.
We show that novel strongly correlated quantum phases can be realized using long-range dipolar interaction in optical lattices.
This work opens the door to quantum simulations of a wide range of lattice models with long-range and anisotropic interactions.
arXiv Detail & Related papers (2023-06-01T16:49:20Z) - Trapped-Ion Quantum Simulation of Collective Neutrino Oscillations [55.41644538483948]
We study strategies to simulate the coherent collective oscillations of a system of N neutrinos in the two-flavor approximation using quantum computation.
We find that the gate complexity using second order Trotter- Suzuki formulae scales better with system size than with other decomposition methods such as Quantum Signal Processing.
arXiv Detail & Related papers (2022-07-07T09:39:40Z) - Quantum control methods for robust entanglement of trapped ions [0.0]
A major obstacle in the way of practical quantum computing is achieving scalable and robust high-fidelity entangling gates.
quantum control has become an essential tool, as it can make the entangling interaction resilient to sources of noise.
arXiv Detail & Related papers (2022-06-13T11:48:05Z) - Tuning long-range fermion-mediated interactions in cold-atom quantum
simulators [68.8204255655161]
Engineering long-range interactions in cold-atom quantum simulators can lead to exotic quantum many-body behavior.
Here, we propose several tuning knobs, accessible in current experimental platforms, that allow to further control the range and shape of the mediated interactions.
arXiv Detail & Related papers (2022-03-31T13:32:12Z) - Information Scrambling in Computationally Complex Quantum Circuits [56.22772134614514]
We experimentally investigate the dynamics of quantum scrambling on a 53-qubit quantum processor.
We show that while operator spreading is captured by an efficient classical model, operator entanglement requires exponentially scaled computational resources to simulate.
arXiv Detail & Related papers (2021-01-21T22:18:49Z) - Quantum information spreading in a disordered quantum walk [50.591267188664666]
We design a quantum probing protocol using Quantum Walks to investigate the Quantum Information spreading pattern.
We focus on the coherent static and dynamic disorder to investigate anomalous and classical transport.
Our results show that a Quantum Walk can be considered as a readout device of information about defects and perturbations occurring in complex networks.
arXiv Detail & Related papers (2020-10-20T20:03:19Z) - Quantum amplification of boson-mediated interactions [0.0]
We experimentally demonstrate the amplification of a boson-mediated interaction between two trapped-ion qubits by parametric modulation of the trapping potential.
The technique can be used in any quantum platform where parametric modulation of the boson channel is possible.
arXiv Detail & Related papers (2020-09-29T23:22:55Z) - Interplay of exchange and superexchange in triple quantum dots [0.0]
Recent experiments on semiconductor quantum dots have demonstrated the ability to utilize a large quantum dot to mediate superexchange interactions.
We show that superexchange processes strongly enhance and increase the range of the net spin-spin exchange as the dots approach a linear configuration.
Our results can be used as a guide to assist further experimental efforts towards scaling up to larger, two-dimensional quantum dot arrays.
arXiv Detail & Related papers (2020-03-06T20:11:16Z)
This list is automatically generated from the titles and abstracts of the papers in this site.
This site does not guarantee the quality of this site (including all information) and is not responsible for any consequences.