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Finding the ground state of the Hubbard model using variational methods has been predicted to be one of the first applications of near-term quantum computers .
Although rare, remote operation may fail for various reasons. The Fermi-Hubbard model is of fundamental importance in condensed-matter physics, yet is extremely challenging to solve numerically. Finding the ground state of the Hubbard model using variational methods has been predicted to be one of the first applications of near-term quantum computers. 2019-09-02 · We used a cluster of the Fermi–Hubbard model and the automerization of Cyclobutadiene as examples to assess the accuracy of the BUCC and LDCA ansatzes. Our results showed that LDCA has the potential to accurately described the exact ground state of strongly correlated fermionic systems on a quantum processor.
Although rare, remote operation may fail for various reasons. 2021-01-07 · This module contains an implementation of code to simulate the dynamics of the one-dimensional Fermi-Hubbard model on Google's Quantum Computing Service. Overview. The examples allow to analyze and reproduce the results published in arXiv:2010.07965 [quant-ph]: A fundamental concept in quantum-information processing is the connection of a quantum computational model to a physical system by transformations of closed-operator algebras. The Jordan-Wigner isomorphism gives the correspondence between the algebra Here, we present a measurement of the second Renyi entropy of the ground state of the two-site Fermi-Hubbard model on a five-qubit programmable quantum computer based on trapped ions. Our work illustrates the extraction of a nonlinear characteristic of a quantum state using a controlled-swap gate acting on two copies of the state.
Before we decide to use a quantum computer to figure out some properties of the Hubbard model, let’s try to make some progress with paper-and-pencil. Some materials that were predicted to conduct electricity turned out to be insulators, especially at low temperatures.
s is the quantum mechanical spin opera- tors, given by sx = ¯h. 2 possibility of todays computers.
certain discrete models, both classical (discrete nonlinear Schrödinger models) and quantum mechanical (Bose-Hubbard models), with applications in optical
2015 — Andreevreflection in SNS and NS interferometers incorporates two features: interference inthe arms of the Y-shaped normal region, and Avancerad procedur och axiom / L. Ron Hubbard. - Intelligence and models for cognitive development / Linda Surface-normal multiple quantum well electroabsorption School of Computer Science and Communication, Royal Institute.
It is closely related to the Hubbard model which originated in solid-state physics as an approximate description of superconducting systems and the motion of electrons between the atoms of a crystalline solid. The model was first introduced by Gersch and Knollman in 1963 in the context of granular superconductors. The model …
2020-12-29
Strategies for solving the Fermi-Hubbard model on near-term quantum computers. The Fermi-Hubbard model is of fundamental importance in condensed-matter physics, yet is extremely challenging to solve numerically.
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• New techniques for quantum Hamiltonian complexity 16 Dec 2020 We show that the performance of quantum simulation can be for solving the Fermi-Hubbard model on near-term quantum computers. e-Print:. Modern quantum computers are becoming bigger every day. Among the many promising uses we can explore, the field of Quantum Simulations arises as one of 18 Sep 2020 Abstract: Quantum computers and simulators can have an the Hubbard model in two dimensions, which describes the motion of electrons in 4 Nov 2020 Data corresponding to the results from the paper "Strategies for solving the Fermi -Hubbard model on near-term quantum computers" by Chris Ji, J. (2019). The Hubbard Model for Universal Quantum Computation ( Unpublished master's thesis).
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Tidigare teoretiska undersökningar av multi-orbital Hubbard-modellen i en dimension 23 via en tre-bubblig Hubbard-modell i en dimension (1D) som avslöjade en OSMP-regim.
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Method to efficiently simulate the thermodynamic properties of the Fermi- Hubbard model on a quantum computer. PL Dallaire-Demers, FK Wilhelm. Physical
• New techniques for quantum Hamiltonian complexity 16 Dec 2020 We show that the performance of quantum simulation can be for solving the Fermi-Hubbard model on near-term quantum computers. e-Print:. Modern quantum computers are becoming bigger every day. Among the many promising uses we can explore, the field of Quantum Simulations arises as one of 18 Sep 2020 Abstract: Quantum computers and simulators can have an the Hubbard model in two dimensions, which describes the motion of electrons in 4 Nov 2020 Data corresponding to the results from the paper "Strategies for solving the Fermi -Hubbard model on near-term quantum computers" by Chris Ji, J. (2019). The Hubbard Model for Universal Quantum Computation ( Unpublished master's thesis). University of Calgary, Calgary, AB. Faculty.