HFODD Home Page

J. Dobaczewski, P. Bączyk, P. Becker, M. Bender, K. Bennaceur, J. Bonnard, B.G. Carlsson, J. Dudek, J. Engel, Y. Gao, A. Idini, M. Konieczka, M. Kortelainen, T. Lesinski, J. McDonnell, P. Olbratowski, P. Powałowski, L. Próchniak, A.M. Romero, M. Sadziak, J. Sarich, K. Sato, W. Satuła, N. Schunck, J.A. Sheikh, Y. Shi, A. Staszczak, M. Stoitsov, P. Toivanen, X.B. Wang, T.R. Werner, L.F. Yu, M. Zalewski, and H. Zduńczuk

The code HFODD solves the nuclear Skyrme-Hartree-Fock or Skyrme-Hartree-Fock-Bogolyubov problem by using the Cartesian deformed harmonic-oscillator basis.

What's new

• October 10, 2020: HFODD (v3.00) - Multi-quasiparticle blocking, with J. Bonnard
• August 13, 2020: HFODD (v2.99) - PNP for total number of particles added to other projections, with J. Bonnard
• August 3, 2020: HFODD (v2.98) - HFB/HF separately either for neutrons or for protons
• July 13, 2020: HFODD (v2.97) - Finished average J² with pairing
• June 8, 2020: HFODD (v2.96) - Starting the implementation of average J² with pairing, debugging the AMP with blocking
• April 6, 2020: HFODD (v2.95) - More on the pairing p-n mixing
• March 28, 2020: HFODD (v2.94) - Continuing the pairing p-n mixing
• February 12, 2020: HFODD (v2.93) - Starting the implementation of the pairing p-n mixing, with A.M. Romero and J. Bonnard
• November 23, 2019: HFODD (v2.92) - Multi-Gauss separable functional generators. Basis deformations determined from quadrupole constraints by Leszek Próchniak
• July 9, 2019: HFODD (v2.91) - Wigner D functions and separable functional generators debugged
• April 26, 2019: HFODD (v2.90) - Wigner D functions calculated by the method of Phys. Rev. E92, 043307 with their bugs corrected, with Yue Shi
• March 10, 2019: HFODD (v2.89) - Separable functional generators, with Antonio Romero
• February 15, 2019: HFODD (v2.88) - Deformations beta and non-dominant Nilsson labels stored in the REVIEW file
• November 26, 2018: HFODD (v2.87) - Projection of blocked HFB state, Yuan Gao
• September 16, 2018: HFODD (v2.86) - 3-body gradients with K. Bennaceur and M. Bender, and ISB NLO Skyrme terms with P. Bączyk and M. Konieczka
• April 16, 2018: HFODD (v2.85) - Axialisation by Pierre Becker
• December 12, 2017: HFODD (v2.84) - Fixed occupations in alignment blocks for axial unpaired nuclei.
• July 29, 2017: HFODD (v2.83) - No-core configuration mixing by W. Satuła, P. Bączyk, and M. Konieczka.
• July 17, 2017: HFODD (v2.82) - Karim Bennaceur's magic formula for the convergence stability of HFB states.
• July 1, 2017: HFODD (v2.81) - Reduced matrix elements of the Schiff operator between angular-momentum-projected states.
• April 15, 2017: HFODD (v2.80) - Neutron contributions to magnetic moments.
• April 8, 2017: HFODD (v2.79) - Skyrme pairing by Ling Fei Yu.
• March 27, 2017: HFODD (v2.73y) published in Computer Physics Communications, Volume 216 (2017) 145–174
• October 11, 2016: HFODD (v2.78) - Pairing correlations for no symmetries and regularized Skyrme pseudopotentials up to higher orders.
• March 20, 2016: HFODD (v2.77) - Skyrme tensor interaction debugged, P. Bączyk and M. Konieczka.
• March 16, 2016: HFODD (v2.76) - Pairing correlations for regularized Skyrme pseudopotentials up to higher orders debugged.
• June 6, 2015: HFODD (v2.75) - Skyrme tensor interaction and the "F" density.
• May 9, 2015: HFODD (v2.74) - Angular momentum projection of HFB states with the Pfaffian method by Y. Gao.
• May 4, 2015: HFODD (v2.73) - Pairing correlations for regularized Skyrme pseudopotentials up to higher orders.
• April 19, 2015: HFODD (v2.72) - Charge-symmetry-breaking terms by P. Bączyk and M. Konieczka.
• January 13, 2015: HFODD (v2.71) - Preparations for publication.
• October 2, 2014: HFODD (v2.70) - Higher-order Lipkin particle-number corrections by X.B. Wang.
• December 17, 2013: HFODD (v2.69) - Lipkin rotational and translational corrections by Y. Gao.
• August 15, 2013: HFODD (v2.68) - Average values of the isospins by K. Sato.
• August 9, 2013: HFODD (v2.67) - Particle number projection by T. Lesinski.
• July 14, 2013: HFODD (v2.66) - Full N2LO regularized central interaction.
• June 20, 2013: HFODD (v2.65) - Full NLO regularized central interaction.
• November 7, 2012: HFODD (v2.56) - Testing the three-dimensional isospin projection.
• July 16, 2012: HFODD (v2.55) - Three-dimensional isospin projection.
• May 20, 2012: HFODD (v2.54) - Regularized delta interaction.
• March 20, 2012: HFODD (v2.53) - The Gogny interaction.
• December 16, 2011: HFODD (v2.52) - Proton-neutron mixing with broken simplex.
• August 30, 2011: HFODD (v2.51) - Proton-neutron mixing without pairing.
• August 27, 2011: HFODD (v2.49t) published in Computer Physics Communications, Volume 183, Issue 1, January 2012, Pages 166-192
• June 25, 2011: HFODD (v2.50) - Version identical to (v2.49t), which has been resubmitted for publication in CPC.
• March 9, 2011: HFODD (v2.49s) - Submitted for publication in Computer Physics Communications, arXiv:1103.1851
• February 20, 2011: HFODD (v2.49r) - Ready to be submitted for publication in Computer Physics Communications.
• July 20, 2010: HFODD (v2.49) - Oak Ridge features added (Nicolas Schunck).
• May 7, 2010: HFODD (v2.48) - Lipkin rotational correction - programing started.
• March 14, 2010: HFODD (v2.47) - Lipkin center-of-mass corrections with pairing (Pekka Toivanen).
• March 10, 2010: HFODD (v2.46) - Oak Ridge features added (Nicolas Schunck).
• December 25, 2009: HFODD (v2.45) - Corrected parameters of SLY4, SLY5, and SLY7.
• November 9, 2009: HFODD (v2.44) - Augmented Lagrangian method (M.V. Stoitsov and A. Staszczak).
• October 20, 2009: HFODD (v2.43) - The two-basis method for the no-symmetry case of HFB.
• September 21, 2009: HFODD (v2.40h) User's Guide published in arXiv/0909.3626.
• September 16, 2009: HFODD (v2.40h) published in Computer Physics Communications, Volume 180, Issue 11, November 2009, Pages 2361-2391
• August 13, 2009: HFODD (v2.42) - Version identical to (v2.41), with the FORTRAN-77 compatibility removed.
• August 13, 2009: HFODD (v2.41) - Version identical to (v2.40h), which has been resubmitted for publication in CPC.
• August 12, 2009: HFODD (v2.40h) - Resubmitted for publication in Computer Physics Communications,
• June 11, 2009: HFODD (v2.40) - Broyden method for the Lipkin-Nogami calculations debugged.
• March 6, 2009: HFODD (v2.39) - Version identical to (v2.38j), which has been submitted for publication in CPC.
• March 5, 2009: HFODD (v2.38j) - Submitted for publication in Computer Physics Communications, arXiv:0903.1020
• December 16, 2008: HFODD (v2.38) - Accelerated state-dependent pairing gaps for a density-dependent delta interaction.
• October 18, 2008: HFODD (v2.37) - Quasiparticle blocking with respect to the fixed wave function (B.G. Carlsson).
• September 29, 2008: HFODD (v2.36) - Exact Coulomb exchange tested.
• March 22, 2008: HFODD (v2.35) - Broyden method (N. Schunck and M. Stoitsov).
• March 21, 2008: HFODD (v2.34) - Exact Coulomb exchange programmed.
• February 7, 2008: HFODD (v2.33) - Reduced matrix elements of Schiff operators.
• November 19, 2007: HFODD (v2.32) - Filling approximation.
• August 8, 2007: HFODD (v2.31) - Interface to the diagonalization subroutine ZHEEVR (Jason Sarich).
• August 3, 2007: HFODD (v2.30) - Lipkin-Nogami corrections.
• June 28, 2007: HFODD (v2.29) - Flexible input and output file numbers.
• June 19, 2007: HFODD (v2.28) - Implementation of BLAS subroutines for better performance (Jason Sarich).
• March 22, 2007: HFODD (v2.27) - HFB for the case of parity symmetry conserved.
• February 26, 2007: HFODD (v2.26) - Blocking of HFB quasiparticles.
• March 30, 2006: HFODD (v2.25) - The K-mixing.
• February 24, 2006: HFODD (v2.24) - Parallel processing to calculate the GCM kernels.
• February 17, 2006: HFODD (v2.23) - The wave function transformed by one of the D_2h operators.
• February 3, 2006: HFODD (v2.22) - Reduced matrix elements of electric and magnetic multipole transition operatorss.
• December 15, 2005: HFODD (v2.21) - Projection on angular momentum of HF states of arbitrary symmetry for odd and even nuclei.
• October 27, 2005: HFODD (v2.20) - Constraints on the Schiff moments.
• May 22, 2005: HFODD (v2.19) - Exact Bohr deformation parameters.
• May 20, 2005: HFODD (v2.18) - Multipole moments and angular momenta rotated by Euler angles.
• May 1, 2005: HFODD (v2.08k) published in Computer Physics Communications, Volume 167, Issue 3, 1 May 2005, Pages 214-216
• April 7, 2005: HFODD (v2.17) - HFB for the case of no symmetries conserved.
• March 22, 2005: HFODD (v2.16) - Pensurface multipole moments <r^(l+4)Y_lm>.
• February 8, 2005: HFODD (v2.15) - The wave function rotated by Euler angles.
• January 26, 2005: HFODD (v2.14) - State-dependent pairing gaps for a density-dependent delta interaction.
• January 4, 2005: HFODD (v2.08k) User's Guide published in nucl-th/0501008.
• December 26, 2004: HFODD (v2.13) - Direct and exchange expectation values of the Yukawa potential calculated by an expansion on the Gaussian interactions.
• December 2, 2004: HFODD (v2.12) - Matrix elements of the Gaussian interaction in one Cartesian direction.
• July 15, 2004: HFODD (v2.11) - State-dependent pairing matrix elements of a density-dependent delta interaction.
• March 11, 2004: HFODD (v2.10) - Constraints on quadratic scalars built of multipole moments.
• February 11, 2004: HFODD (v2.09) - Expectation value of the Yukawa potential (direct term) calculated by the Green's function method in analogy to the Coulomb energy.
• January 7, 2004: HFODD (v2.08i) published in Computer Physics Communications, Volume 158, Issue 3, 15 April 2004, Pages 158-191

Publications

Attention: this version supersedes all previous versions of the code

Files

Files for version (v2.73y) or higher:


• All input files combined in one zipped file HFODDv273.datafiles.zip
• All output files combined in one zipped file HFODDv273.outputst.zip
  
  Files for version (v2.49t) or higher:
  
  
• Input file ca40_iso.dat and the corresponding output file ca40_iso.out
• Input file ca48_lip.dat and the corresponding output file ca48_lip.out
• Input file cr50_tem.dat and the corresponding output file cr50_tem.out
• Input file pb208_tho.dat and the corresponding output file pb208_tho.out
  
  Files for version (v2.38j) or higher:
  
  
• Input file dy152-f.dat and the corresponding output file dy152-f.out
• Input file ge064-a.dat and the corresponding output file ge064-a.out
• Input file ge064-b.dat and the corresponding output file ge064-b.out
• Input file ge064-c.dat
• Input file sn120-b.dat and the corresponding output file sn120-b.out
  
  Files for version (v2.08k) or higher:
  
  
• Input file dy152-a.dat and the corresponding output file dy152-a.out
• Input file dy152-b.dat and the corresponding output file dy152-b.out
• Input file dy152-c.dat and the corresponding output file dy152-c.out
• Input file dy152-d.dat and the corresponding output file dy152-d.out
• Input file dy152-e.dat and the corresponding output file dy152-e.out
• Input file la132-a.dat and the corresponding output file la132-a.out
• Input file la132-b.dat and the corresponding output file la132-b.out
• Input file pb208-a.dat and the corresponding output file pb208-a.out
• Input file sn120-a.dat and the corresponding output file sn120-a.out
• Input file tb151-a.dat and the corresponding output file tb151-a.out
• Input file tb151-b.dat and the corresponding output file tb151-b.out
• Input file tb151-c.dat and the corresponding output file tb151-c.out
• Input file tb151-d.dat and the corresponding output file tb151-d.out
  
  
• All input files combined in one zipped file all.dat.zip
• All output files combined in one zipped file all.out.zip

Last modified: October 10, 2020