triqs_Nevanlinna
  • Install Nevanlinna
    • Packaged Versions of Nevanlinna
      • Ubuntu Debian packages
    • Compiling Nevanlinna from source
      • Prerequisites
      • Installation steps
      • Version compatibility
      • Custom CMake options
  • Documentation
    • Tutorials
      • Single impurity Anderson model with discrete bath
        • SIAM system parameters
        • Construct hybridization function and Weiss Field
        • Construct the AtomDiag Object and solve it
        • Calculate and plot the single-particle Green function and self-energy
          • Running the Nevanlinna analytic continuation
        • Continuing the self-energy
          • Comparison to Pade & MaxEnt
        • run Pade
        • run MaxEnt
        • plot results of continuation
          • \(\Sigma\) comparison to Pade
      • GW self-energy of a 2D square lattice Hubbard model
        • Setup simple two orbital 2D Hubbard model on square lattice
          • plot dispersion along high-symmetry lines
        • GW in imaginary time
          • setup bare interaction
          • Run one GW loop
          • Plot results
        • GW on real frequency axis
        • Analytic continuation
          • Nevanlinna
          • Pade
          • MaxEnt
        • Comparison: Pade, Nevanlinna, Pade, and Maxent
      • Matrix valued: 2 orbital GW self-energy of a 2D square lattice Hubbard model
        • Setup simple two orbital 2D Hubbard model on square lattice
          • plot dispersion along high-symmetry lines
        • GW in imaginary time
          • setup bare interaction
          • Run one GW loop
          • Plot results
        • GW on real frequency axis
        • Analytic continuation
          • Nevanlinna
          • Pade
        • Comparison
      • Matrix valued continuation & Hardy optimization
        • Setup simple two orbital 2D Hubbard model on square lattice
          • plot dispersion along high-symmetry lines
        • Setup lattice Green’s function and calculate \(G_{loc}\) on Matsubara axis
          • calculate local Green’s function
        • Calculate reference data directly on real frequency axis
        • Analytic continuation with Pade, Nevanlinna, and MaxEnt
          • Pade
          • Nevanlinna & Caratheodory
          • run MaxEnt
        • Final plot for comparison
        • Hardy optimization
    • Python reference manual
      • triqs_Nevanlinna.solver
        • triqs_Nevanlinna.solver.Solver
          • Solver
          • triqs_Nevanlinna.solver.Solver.Pick_eigenvalues
          • triqs_Nevanlinna.solver.Solver.evaluate
          • triqs_Nevanlinna.solver.Solver.optimize
          • triqs_Nevanlinna.solver.Solver.solve
      • triqs_Nevanlinna.solver_core
        • triqs_Nevanlinna.solver_core.NevanlinnaParametersT
          • NevanlinnaParametersT
          • triqs_Nevanlinna.solver_core.NevanlinnaParametersT.kernel
          • triqs_Nevanlinna.solver_core.NevanlinnaParametersT.precision
        • triqs_Nevanlinna.solver_core.SolverCore
          • SolverCore
          • triqs_Nevanlinna.solver_core.SolverCore.Pick_eigenvalues
          • triqs_Nevanlinna.solver_core.SolverCore.evaluate
          • triqs_Nevanlinna.solver_core.SolverCore.solve
      • triqs_Nevanlinna.kernels
      • triqs_Nevanlinna.kernels_core
        • triqs_Nevanlinna.kernels_core.CaratheodoryKernel
          • CaratheodoryKernel
          • triqs_Nevanlinna.kernels_core.CaratheodoryKernel.Pick_eigenvalues
          • triqs_Nevanlinna.kernels_core.CaratheodoryKernel.evaluate
          • triqs_Nevanlinna.kernels_core.CaratheodoryKernel.get_Pick_eigenvalues
          • triqs_Nevanlinna.kernels_core.CaratheodoryKernel.init
        • triqs_Nevanlinna.kernels_core.NevanlinnaKernel
          • NevanlinnaKernel
          • triqs_Nevanlinna.kernels_core.NevanlinnaKernel.Pick_eigenvalues
          • triqs_Nevanlinna.kernels_core.NevanlinnaKernel.evaluate
          • triqs_Nevanlinna.kernels_core.NevanlinnaKernel.get_Pick_eigenvalues
          • triqs_Nevanlinna.kernels_core.NevanlinnaKernel.init
  • Reporting issues
  • Changelog
    • Version 3.3.0
      • General
      • jenkins
      • cmake
    • Version 3.2.0
  • About Nevanlinna
triqs_Nevanlinna
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© Copyright 2023 S. Iskakov and The Simons Foundation, authors: A. Hampel, N. Wentzell.