Related papers: The Basics of Quantum Computing for Chemists

The Basics of Quantum Computing for Chemists

URL: http://arxiv.org/abs/2203.15063v2
Date: Wed, 30 Mar 2022 13:20:28 GMT
Title: The Basics of Quantum Computing for Chemists
Authors: Daniel Claudino
Abstract summary: We review and illustrate the basic aspects of quantum information and their relation to quantum computing. We discuss the current landscape when of relevance to quantum chemical simulations in quantum computers.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: The rapid and successful strides in quantum chemistry in the past decades can be largely credited to a conspicuous synergy between theoretical and computational advancements. However, the architectural computer archetype that enabled such a progress is approaching a state of more stagnant development. One of the most promising technological avenues for the continuing progress of quantum chemistry is the emerging quantum computing paradigm. This revolutionary proposal comes with several challenges, which span a wide array of disciplines. In chemistry, it implies, among other things, a need to reformulate some of its long established cornerstones in order to adjust to the operational demands and constraints of quantum computers. Due to its relatively recent emergence, much of quantum computing may still seem fairly nebulous and largely unknown to most chemists. It is in this context that here we review and illustrate the basic aspects of quantum information and their relation to quantum computing insofar as enabling simulations of quantum chemistry. We consider some of the most relevant developments in light of these aspects and discuss the current landscape when of relevance to quantum chemical simulations in quantum computers.

Related papers

Computable and noncomputable in the quantum domain: statements and conjectures [0.70224924046445]
We consider an approach to the question of describing a class of problems whose solution can be accelerated by a quantum computer. The unitary operation that transforms the initial quantum state into the desired one must be decomposable into a sequence of one- and two-qubit gates.
arXiv Detail & Related papers (2024-03-25T15:47:35Z)
Quantum Computing: Vision and Challenges [16.50566018023275]
We discuss cutting-edge developments in quantum computer hardware advancement and subsequent advances in quantum cryptography, quantum software, and high-scalability quantum computers. Many potential challenges and exciting new trends for quantum technology research and development are highlighted in this paper for a broader debate.
arXiv Detail & Related papers (2024-03-04T17:33:18Z)
Quantum Machine Learning: from physics to software engineering [58.720142291102135]
We show how classical machine learning approach can help improve the facilities of quantum computers. We discuss how quantum algorithms and quantum computers may be useful for solving classical machine learning tasks.
arXiv Detail & Related papers (2023-01-04T23:37:45Z)
Recent Advances for Quantum Neural Networks in Generative Learning [98.88205308106778]
Quantum generative learning models (QGLMs) may surpass their classical counterparts. We review the current progress of QGLMs from the perspective of machine learning. We discuss the potential applications of QGLMs in both conventional machine learning tasks and quantum physics.
arXiv Detail & Related papers (2022-06-07T07:32:57Z)
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)
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)
Quantum computing hardware in the cloud: Should a computational chemist care? [0.0]
We review the types of quantum computing hardware that have been made available to the public through cloud services. For each one we summarise the basic physical operations, requirements and performance. We discuss to what extent each system has been used for molecular chemistry problems.
arXiv Detail & Related papers (2021-02-05T15:52:34Z)
Quantum walk processes in quantum devices [55.41644538483948]
We study how to represent quantum walk on a graph as a quantum circuit. Our approach paves way for the efficient implementation of quantum walks algorithms on quantum computers.
arXiv Detail & Related papers (2020-12-28T18:04:16Z)
Quantum Computation [0.0]
We will discuss and summarized the core principles and practical application areas of quantum computation. The mapping of computation onto the behavior of physical systems is a historical challenge. We will evaluate the essential technology required for quantum computers to be able to function correctly.
arXiv Detail & Related papers (2020-06-04T11:57:18Z)
An Application of Quantum Annealing Computing to Seismic Inversion [55.41644538483948]
We apply a quantum algorithm to a D-Wave quantum annealer to solve a small scale seismic inversions problem. The accuracy achieved by the quantum computer is at least as good as that of the classical computer.
arXiv Detail & Related papers (2020-05-06T14:18:44Z)
Quantum algorithms for quantum chemistry and quantum materials science [2.867517731896504]
We briefly describe central problems in chemistry and materials science, in areas of electronic structure, quantum statistical mechanics, and quantum dynamics, that are of potential interest for solution on a quantum computer. We take a detailed snapshot of current progress in quantum algorithms for ground-state, dynamics, and thermal state simulation, and analyze their strengths and weaknesses for future developments.
arXiv Detail & Related papers (2020-01-10T22:49:56Z)

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