many-body-physics

There are 13 repositories under many-body-physics topic.

• GiggleLiu / marburg

  physics meets neural networks

  deep-learningmany-body-physicsquantum-mechanicsmonte-carlo
  Language:Jupyter Notebook 94
• OQuPy

  tempoCollaboration / OQuPy

  A Python 3 package to efficiently compute non-Markovian open quantum systems.

  computational-physicsmany-body-physicsopen-quantum-systemsphysicspythonpython3-packagequantum-informationquantum-physics
  Language:Jupyter Notebook 66

• hongyehu / PyClifford

  An intuitive programming package for simulating and analyzing Clifford circuits, quantum measurement, and stabilizer states with applications to many-body localization, classical shadows, quantum chemistry and error correction code.

  classical-shadowclifford-gatesmany-body-physicsnumbapythonquantum-chemistryquantum-computingstabilizer-codet-gates
  Language:Jupyter Notebook 63

• DMFTwDFT-project / DMFTwDFT

  DMFTwDFT: An open-source code combining Dynamical Mean Field Theory with various Density Functional Theory packages

  dftdmftmany-body-physicsmaterials-science
  Language:Fortran 48
• MPSDynamics

  shareloqs / MPSDynamics

  Tensor network simulations for finite temperature, open quantum system dynamics

  juliamany-body-physicsmatrix-product-statesnumerical-physicsopen-quantum-systemsquantum-physicstedopatensor-networksnon-equilibrium-dynamicstensor-traintree-tensor-networks
  Language:Julia 38

• numericalEFT / FeynmanDiagram.jl

  Computational graph representation of multiloop Feynman diagrams

  julia-languagefeynman-diagramsmany-body-physics
  Language:Julia 37

• numericalEFT / NumericalEFT.jl

  Numerical Effective Field Theory for Quantum Materials

  quantum-statisticsjuliamany-body-physicsquantum-field-theoryfeynman-diagramseffective-field-theory
  Language:Julia 35

• frankwswang / Quiqbox.jl

  Exploring the computational power of fermionic quantum systems. Ab initio computation and basis set optimization for electronic structure problems.

  quantumquantum-chemistrymoleculeelectronic-structurejuliaautomatic-differentiationcomputational-chemistrymany-body-physicsmolecular-integralsbasis-sethartree-fock
  Language:Julia 31

• huangli712 / iQIST

  Interacting Quantum Impurity Solver Toolkit

  quantum-impurity-solverdynamical-mean-field-theorydiagrammatic-monte-carlomany-body-physicsquantum-impurity-modelcontinuous-time-quantum-monte-carlo
  Language:Fortran 31
• HierarchicalEOM.jl

  NCKU-QFort / HierarchicalEOM.jl

  An efficient Julia framwork for Hierarchical Equations of Motion (HEOM) in open quantum systems

  many-body-physicsopen-quantum-systemsphysicsquantumquantum-mechanincsquantum-opticschemical-physicshierarchical-equations-of-motionjuliahierarchy-equations-of-motionheomlindbladquantum-dynamics
  Language:Julia 29

• twesterhout / lattice-symmetries

  A package to simplify working with symmetry-adapted quantum many-body bases. Provides a good foundation for writing custom exact diagonalization and variational Monte Carlo software

  lattice-symmetriessymmetriessymmetry-groupsccpp17quantum-mechanicsmany-body-physicsexact-diagonalizationpermutationbit-manipulationneural-network
  Language:Haskell 26

• huangli712 / ACFlow

  A Full-Fledged Analytic Continuation Toolkit in Julia

  maximum-entropy-methodstochastic-optimization-methodstochastic-pole-expansionanalytic-continuation-problemnevanlinna-analytical-continuationstochastic-analytic-continuationhigh-energy-physicsquantum-many-body-physicsmany-body-physics
  Language:Julia 22
• impurityModel

  JohanSchott / impurityModel

  Calculate many-body states of an impurity Anderson model and spectra (e.g. XPS, XAS, RIXS, NIXS)

  impurity-anderson-modelmany-body-physicspythonrixsslater-determinantsspectrax-rayxasxps
  Language:Python 21

• krivenko / libcommute

  A quantum operator algebra domain-specific language and exact diagonalization toolkit for C++11/14/17

  physicsquantummany-body-physicsexact-diagonalizationcpp11algebraoperators
  Language:C++ 20

• numericalEFT / Lehmann.jl

  Compact Spectral Representation for Imaginary-time/Matsubara-frequency Green's Functions

  many-body-physicsquantum-statisticsjuliagreens-functionsfeynman-diagrams
  Language:Julia 17

• tatha04 / Numerical-Renormalization-Group

  Modules in Matlab to implement the Numerical Renormalization Group technique.

  solid-state-physicsnumerical-computationkondo-nrganderson-nrgnrgmatlabmany-body-physicsquantum-dotskondokondo-problemimpurity-kondo-modelimpurityquantum-impurity-solvernumerical-renormalization-group
  Language:MATLAB 16

• cc4s / cc4s

  Coupled Cluster for solids. Mirror of https://gitlab.cc4s.org/cc4s/cc4s

  quantum-chemistrycoupled-clustermany-body-perturbation-theorymany-body-physics
  Language:C++ 15

• albertomercurio / QuantumToolbox.jl

  Julia Package for Quantum Optics and Quantum Physics

  julialindbladlindblad-master-equationmany-body-physicsopen-quantum-systemsphysicsquantumquantum-dynamicsquantum-mechanicsquantum-opticsquantum-toolboxquantum-trajectories
  Language:Julia 13

• mfherbst / ReducedBasis.jl

  Reduced basis methods for parametrised eigenproblems

  juliaquantum-physicsmany-body-physicsreduced-basis
  Language:Julia 13

• Roger-luo / QMTK.jl

  Quantum Many-body Toolkit (This repo is deprecated, and its components has been seperated to several projects under https://github.com/QuantumBFS.)

  quantumphysicsjuliaquanutm-computingmany-body-physics
  Language:Julia 13

• numericalEFT / GreenFunc.jl

  Toolbox to study quantum many-body problem at the treelevel

  many-body-physicsjuliafeynman-diagramseffective-field-theory
  Language:Julia 11

• numericalEFT / ElectronGas.jl

  Toolbox for the electron gas problem

  feynman-diagramsjuliamany-body-physics
  Language:Jupyter Notebook 10

• krivenko / pycommute

  Python bindings for libcommute

  algebraphysicsquantumpythonexact-diagonalizationmany-body-physics
  Language:Python 7

• chaeyeunpark / yannq

  Header only library for neural network quantum states

  many-body-physicsvariational-monte-carlo
  Language:C++ 6

• refraction-ray / admf

  Automatic Differentiation Mean Field Approach

  automatic-differentiationmean-field-theorymany-body-physics
  Language:Python 6

• xiaodong-hu / Quantum-Field-Theory-in-Statistical-Physics

  Notes on Condensed Matter Fields Theory

  condensed-matterqftmany-body-physics
  Language:TeX 6

• BorjaRequena / bounce

  machine-learningreinforcement-learningquantum-informationquantummany-body-physics
  Language:Jupyter Notebook 5

• myQLM / myqlm-fermion

  Tools for quantum computing with many-body systems

  many-body-physicspythonquantum-computingatos-tech-foundations
  Language:Python 5

• zhiihan / top

  Interaction-driven topological superconductivity

  physicsphysics-simulationresearch-projectquantumquantum-mechanicscondensed-mattercondensed-phase-simulationscondensed-matter-physicsmany-body-physicstopological-insulator
  Language:Jupyter Notebook 5

• pulkin / local-pyscf

  Implementation of local algorithms within pyscf

  quantum-chemistryatomic-physicsperturbation-theorynumerical-physicsmaterials-sciencecondensed-matterpyscflocal-algorithmsmany-body-physics
  Language:Python 4

• tcompa / Laughlin-Metropolis

  Metropolis Monte Carlo sampling for the Laughlin wave function with quasiholes

  quantum-mechanicsmany-body-physicsmetropolis-monte-carlofractional-quantum-hall
  Language:Python 4

• AlicePagano / Collection-of-University-Assignments

  Collection of University assignments done during my Master degree in Physics of Data at the University of Padova.

  fortranmachinelearningmany-body-physicsnanoclusterpythonquantum-computingrstatistical-analysisvhdlvhdl-examples
  Language:Jupyter Notebook 3

• AlicePagano / Collection-of-University-Lecture-Notes

  Collection of University Lecture Notes taken during my Master degree course in Physics of Data

  lasermany-body-physicsnanoclusteroptics
  Language:TeX 3

• alvarorga / pyexact

  Python library for computing exact diagonalizations

  quantum-chemistryexact-diagonalizationhard-core-bosonsmany-body-physics
  Language:Python 3

• animeshnanda1 / QAOA_vs_ED

  Here we will compare one well-known (ED) and another new method (QAOA) for quantum simulations of many-body physics.

  qaoaexact-diagonalizationmany-body-physicstfim
  Language:Jupyter Notebook 3

• BenjaminDecker / QuantumGameOfLife.jl

  A Classical Simulation of the Quantum Game of Life

  cellular-automatamany-body-physicsquantum-computingquantum-informationtensortensor-networks
  Language:Julia 2