Detecting quantum properties in physical systems using proxy witnesses
- URL: http://arxiv.org/abs/2407.12933v1
- Date: Wed, 17 Jul 2024 18:05:47 GMT
- Title: Detecting quantum properties in physical systems using proxy witnesses
- Authors: Priya Ghosh, Ujjwal Sen, Siddhartha Das,
- Abstract summary: We discuss proxy witnesses for quantum properties like unextendibility, quantum coherence, activation, steerability, and entanglement.
We apply these proxy witnesses in some widely considered examples of many-body systems, viz., the quantum Heisenberg models, the quantum J1-J2 model.
- Score: 0.8192907805418581
- License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
- Abstract: In practice, it is quite challenging to detect a quantum property, a microscopic property, in a macroscopic system. In our work, we construct general proxy witnesses of quantum properties to detect their presence in quantum systems and we do so for quantum systems which may possibly be large. In particular, we discuss proxy witnesses for quantum properties like unextendibility, quantum coherence, activation, steerability, and entanglement. We apply these proxy witnesses in some widely considered examples of many-body systems, viz., the quantum Heisenberg models, the quantum J1-J2 model.
Related papers
- Quantum walks and entanglement in cavity networks [0.0]
We analyze the quantum properties of multipartite quantum systems, consisting of an arbitrarily large collection of optical cavities with two-level atoms.
We explore quantum walks in such systems and determine the resulting entanglement.
The topology of torus and the non-orientable M"obius strip serve as examples of complex networks we consider.
arXiv Detail & Related papers (2024-04-17T12:46:21Z) - Quantum data learning for quantum simulations in high-energy physics [55.41644538483948]
We explore the applicability of quantum-data learning to practical problems in high-energy physics.
We make use of ansatz based on quantum convolutional neural networks and numerically show that it is capable of recognizing quantum phases of ground states.
The observation of non-trivial learning properties demonstrated in these benchmarks will motivate further exploration of the quantum-data learning architecture in high-energy physics.
arXiv Detail & Related papers (2023-06-29T18:00:01Z) - A vertical gate-defined double quantum dot in a strained germanium
double quantum well [48.7576911714538]
Gate-defined quantum dots in silicon-germanium heterostructures have become a compelling platform for quantum computation and simulation.
We demonstrate the operation of a gate-defined vertical double quantum dot in a strained germanium double quantum well.
We discuss challenges and opportunities and outline potential applications in quantum computing and quantum simulation.
arXiv Detail & Related papers (2023-05-23T13:42:36Z) - Simple Tests of Quantumness Also Certify Qubits [69.96668065491183]
A test of quantumness is a protocol that allows a classical verifier to certify (only) that a prover is not classical.
We show that tests of quantumness that follow a certain template, which captures recent proposals such as (Kalai et al., 2022) can in fact do much more.
Namely, the same protocols can be used for certifying a qubit, a building-block that stands at the heart of applications such as certifiable randomness and classical delegation of quantum computation.
arXiv Detail & Related papers (2023-03-02T14:18:17Z) - Temporal witnesses of non-classicality and conservation laws [0.0]
A general entanglement-based witness of non-classicality has been proposed, which can be applied to testing quantum effects in gravity.
In this paper we provide a "temporal" variant of this witness, using a single quantum probe to assess the non-classicality of the mediator.
arXiv Detail & Related papers (2022-04-30T08:32:28Z) - Efficient criteria of quantumness for a large system of qubits [58.720142291102135]
We discuss the dimensionless combinations of basic parameters of large, partially quantum coherent systems.
Based on analytical and numerical calculations, we suggest one such number for a system of qubits undergoing adiabatic evolution.
arXiv Detail & Related papers (2021-08-30T23:50:05Z) - Depth-efficient proofs of quantumness [77.34726150561087]
A proof of quantumness is a type of challenge-response protocol in which a classical verifier can efficiently certify quantum advantage of an untrusted prover.
In this paper, we give two proof of quantumness constructions in which the prover need only perform constant-depth quantum circuits.
arXiv Detail & Related papers (2021-07-05T17:45:41Z) - Detecting quantum entanglement with unsupervised learning [5.136040801991848]
In this work, we exploit the convexity of normal samples without quantum features and design an unsupervised machine learning method to detect quantum features as anomalies.
We propose a complex-valued neural network composed of pseudo-siamese network and generative adversarial net, and then train it with only separable states to construct non-linear witnesses for entanglement.
Our results are readily applicable to the detection of other quantum resources such as Bell nonlocality and steerability, indicating that our work could provide a powerful tool to extract quantum features hidden in high-dimensional quantum data.
arXiv Detail & Related papers (2021-03-08T14:56:24Z) - 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) - Perfect discrimination of quantum measurements using entangled systems [0.0]
We investigate the problem of single-shot discrimination of quantum measurements using two strategies.
One based on single quantum systems and the other one based on entangled quantum systems.
We show that any advantage in measurement discrimination tasks over single systems is a demonstration of Einstein-Podolsky-Rosen 'quantum steering'
arXiv Detail & Related papers (2020-12-13T14:30:06Z) - Demonstrating the power of quantum computers, certification of highly
entangled measurements and scalable quantum nonlocality [0.0]
We demonstrate the power of state-of-the-art IBM quantum computers in correlation experiments inspired by quantum networks.
Our experiments feature up to 12 qubits and require the implementation of paradigmatic Bell-State Measurements.
arXiv Detail & Related papers (2020-09-29T13:59:49Z)
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.