WIGXJPF and FASTWIGXJ usage

It is always nice to see code being used :-)

E-mails with support inquiries and cheerful user feedback (both appreciated) paint a picture of a broad scope for Wigner symbols:

• Nuclear physics
• Astronomy
• Quantum gravity
• Cosmology
• Chemistry
• Accelerator simulations
• Atomic environments
• Electronics
• Optical thin-film simulations
• Biophysics

On the WEB

• Anaconda install: https://anaconda.org/KyleWendt/pywigxjpf
• Julia wrapper: https://github.com/jagot/WIGXJPF.jl
• sl2cfoam-1.0: https://bitbucket.org/giorgiosarno/sl2cfoam-1.0/
• sl2cfoam-next: https://github.com/qg-cpt-marseille/sl2cfoam-next
• PORTAL: https://github.com/blankhaar/PORTAL
• smuthi: https://smuthi.readthedocs.io/en/latest/
• SU3lib: https://gitlab.com/tdytrych/su3lib
• ARTS: https://github.com/atmtools/arts
• kore: https://github.com/repepo/kore
• QDYN: https://ag-koch.gitpages.physik.fu-berlin.de/qdyn/main/index.html
• westerfit: https://github.com/wes648/Westerfit.jl
• ...

Citing articles

• E.D. Dio, R. Durrer, G. Marozzi and F. Montanari (2016). The bispectrum of relativistic galaxy number counts. Journal of Cosmology and Astroparticle Physics, 2016, 016. (arXiv:1510.04202)
• J.K. Scher-Zagier and A.E. Carlsson (2016). Local Turgor Pressure Reduction via Channel Clustering. Biophysical Journal, 111(12), 2747-2756.
• M.O. Lavrentovich, E.M. Horsley, A. Radja, A.M. Sweeney, and R.D. Kamien (2016). First-order patterning transitions on a sphere as a route to cell morphology. Proceedings of the National Academy of Sciences, 113(19), 5189. (arXiv:1603.00557)
• J. Torrado, B. Hu, and A. Achúcarro (2017). Robust predictions for an oscillatory bispectrum in Planck 2015 data from transient reductions in the speed of sound of the inflaton. Physical Review D, 96(8), 083515. (arXiv:1611.10350)
• I.J. Shin, Y. Kim, P. Maris, J.P. Vary, C. Forssén, J. Rotureau, and N. Michel (2017). Ab initio no-core solutions for ⁶Li. Journal of Physics G: Nuclear and Particle Physics, 44(7), 075103. (arXiv:1605.02819)
• P. Donà, M. Fanizza, G. Sarno, and S. Speziale (2018). SU(2) graph invariants, Regge actions and polytopes. Classical and Quantum Gravity, 35(4). (arXiv:1708.01727)
• G. Sarno, S. Speziale, and G.V. Stagno (2018). 2-vertex Lorentzian spin foam amplitudes for dipole transitions. General Relativity and Gravitation, 50, 43. (arXiv:1801.03771)
• V.N.P. Anghel, D. Bolmatov, and J. Katsaras (2018). Models for randomly distributed nanoscopic domains on spherical vesicles. Physical Review E, 97(6), 062405.
• P. Donà and G. Sarno (2018). Numerical methods for EPRL spin foam transition amplitudes and Lorentzian recoupling theory General Relativity and Gravitation, 50, 127. (arXiv:1807.03066)
• G. Arioli, H. Koch (2019). Non-radial solutions for some semilinear elliptic equations on the disk. Nonlinear Analysis, 179, 294. (arXiv:1712.08030)
• R. Larsson, B. Lankhaar, P. Eriksson (2019). Updated Zeeman effect splitting coefficients for molecular oxygen in planetary applications. Journal of Quantitative Spectroscopy and Radiative Transfer, 224, 431.
• A. Loureiro, B. Moraes, F. B. Abdalla, A. Cuceu, M. McLeod, L. Whiteway, S. T. Balan, A. Benoit-Lévy, O. Lahav, M. Manera, R. Rollins, H. S. Xavier (2019). Cosmological measurements from angular power spectra analysis of BOSS DR12 tomography. Monthly Notices of the Royal Astronomical Society, 485(1), 326. (arXiv:1809.07204)
• A. Radja, E.M. Horsley, M.O. Lavrentovich, and A.M. Sweeney (2019). Pollen Cell Wall Patterns Form from Modulated Phases. Cell, 176(4), 856. (arXiv:1803.03643)
• E. Di Dio, R. Durrer, R. Maartens, F. Montanari, O. Umeh (2019). The full-sky angular bispectrum in redshift space. Journal of Cosmology and Astroparticle Physics, 04(2019)053. (arXiv:1812.09297)
• S. A. Triana, J. Rekier, A. Trinh, V. Dehant (2019). The coupling between inertial and rotational eigenmodes in planets with liquid cores. Geophysical Journal International, 218(2), 1071. (arXiv:1904.11837)
• P. Donà, M. Fanizza, G. Sarno, and S. Speziale (2019). Numerical study of the Lorentzian Engle-Pereira-Rovelli-Livine spin foam amplitude. Phys. Rev. D, 100, 106003. (arXiv:1903.12624)
• L. Bordin, G. Cabass (2019). Probing higher-spin fields from inflation with higher-order statistics of the CMB. Journal of Cosmology and Astroparticle Physics, 06, 050. (arXiv:1902.09519)
• B. Lankhaar, W. Vlemmings (2020). PORTAL-three-dimensional polarized (sub)millimeter line radiativetransfer. Astronomy & Astrophysics, 636, A14. (arXiv:2003.04331)
• V. Tulsky, D. Bauer (2020). Qprop with faster calculation of photoelectron spectra. Comp. Phys. Comm., 251, 107098. (arXiv:1907.08595)
• A. J. Duivenvoorden, P. D. Meerburg, K. Freese (2020). CMB B-mode non-Gaussianity: optimal bispectrum estimator and Fisher forecasts. Phys. Rev. D, 102, 023521. (arXiv:1911.11349)
• J. Brod, Z. Polonsky (2020). Two-loop Beta Function for Complex Scalar Electroweak Multiplets. J. High Energy Phys., 158. (arXiv:2007.13755)
• A. Tichai, R. Wirth, J. Ripoche, T. Duguet (2020). Symmetry reduction of tensor networks in many-body theory. Eur. Phys. J. A, 56, 272.
• P. Dona, F. Gozzini, G. Sarno (2020). Searching for classical geometries in spin foam amplitudes: a numerical method. Class. Quantum Grav., 37, 094002. (arXiv:1909.07832)
• P. La Plante, A. Lidz, J. Aguirre, S. Kohn (2020). The 21 cm-kSZ-kSZ Bispectrum during the Epoch of Reionization. The Astro.Phys. J., 899, 1. (arXiv:2005.07206)
• J.-C. Pain (2020). Some properties of Wigner 3j coefficients: non-trivial zeros and connections to hypergeometric functions. Eur. Phys. J. A, 56, 296. (arXiv:2011.05184)
• F. Montanari, S. Camera (2021). Speeding up the detectability of the harmonic-space galaxy bispectrum. Journal of Cosmology and Astroparticle Physics, 002. (arXiv:2008.11131)
• L. Ji, M. Kamionkowski, K. Inomata (2021). Standard Model Prediction for Cosmological 21cm Circular Polarization. Phys. Rev. D 103, 023516. (arXiv:2005.10250)
• T. Oberhuber, T. Dytrych, K. D. Launey, D. Langr, J. P. Draayer (2021). Transformation of a Nucleon-Nucleon potential operator into its SU(3) tensor form using GPUs. Discrete & Continuous Dynamical Systems - S, 14(3), 1111.
• S. A. Triana, A. Trinh, J. Rekier, P. Zhu, V. Dehant (2021). The Viscous and Ohmic Damping of the Earth's Free Core Nutation. JGR Solid Earth, 126(4).
• P.M. Mannix, A.J. Mestel (2021). Bistability and hysteresis of axisymmetric thermal convection between differentially rotating spheres. Journal of Fluid Mechanics, 911, A12.
• R. Kothari, R. Maartens (2021). Lensing contribution to the 21 cm intensity bispectrum. Classical and Quantum Gravity, 38(9), 095013. (arXiv:2101.11372)
• T. Dytrych, D. Langr, J. P.Draayer, K. D. Launey, D. Gazda (2021). SU3lib: A C++ library for accurate computation of Wigner and Racah coefficients of SU(3). Computer Physics Communications, 269, 108137.
• P. Dona, P. Frisoni (2022). How-To compute EPRL spin foam amplitudes. Universe 2022, 8(4), 208. (arXiv:2202.04360)
• A. C. Balram (2022). Transitions from Abelian composite fermion to non-Abelian parton fractional quantum Hall states in the zeroth Landau level of bilayer graphene. Phys. Rev. B, 105, L121406. (arXiv:2111.07703)
• C. M. González-Collado, E. Plésiat, P. Decleva, A. Palacios, F. Martín (2022). Vibrationally resolved photoelectron angular distributions of ammonia. Phys. Chem. Chem. Phys., 2022, 24, 7700-7712. (arXiv:)
• P. Frisoni, F. Gozzini, F. Vidotto (2022). Numerical analysis of the self-energy in covariant loop quantum gravity. Phys. Rev. D, 105, 106018. (arXiv:2112.14781)
• P. Donà, P. Frisoni, E. Wilson-Ewing (2022). Radiative corrections to the Lorentzian Engle-Pereira-Rovelli-Livine spin foam propagator. Phys.Rev.D 106 (2022) 6, 066022. (arXiv:2206.14755)
• J. Bhattacharya (2022). Numerical evaluation of time-distance helioseismic sensitivity kernels in spherical geometry. Astronomy & Astrophysics, 659, A138. (arXiv:2112.13517)
• B. Bucha (2022). Spherical harmonic synthesis of area-mean potential values on irregular surfaces. Journal of Geodesy, 96, 68.
• K. Kaslis, S. Arslanagic, O. Breinbjerg (2022). Arbitrary Rigid Translation of the Spherical Vector Wave Functions. 2022 Antenna Measurement Techniques Association Symposium (AMTA).
• R. Rausch, M. Peschke, C. Plorin, J. Schnack, C. Karrasch (2023). Quantum spin spiral ground state of the ferrimagnetic sawtooth chain. SciPost Phys. 14, 052. (arXiv:2207.08273)
• P. Frisoni, F. Gozzini, F. Vidotto (2023). Markov Chain Monte Carlo methods for graph refinement in Spinfoam Cosmology. Classical and Quantum Gravity, 40(10), 105001. (arXiv:2207.02881)
• K. Csukás, I. Rácz (2023). Is it possible to construct asymptotically flat initial data using the evolutionary forms of the constraints?. Physical Review D 107, 084013. (arXiv:2302.00590)
• F. Moncada, W. Quintero, E. Posada, L. G. M. Pettersson, A. Reyes (2023). A nuclear configuration interaction approach to study nuclear spin effects: an application to ortho- and para-3He2@C60. ChemPhysChem 25, 4.
• S. Keppeler, S. Plätzer & M. Sjodahl (2024). Wigner 6j symbols with gluon lines: completing the set of 6j symbols required for color decomposition. J. High Energ. Phys. 51. (arXiv:2312.16688)
• J S Hofmann, F Goth, W. Zhu, Y.-C. He, E. Huffman (2024). Quantum Monte Carlo simulation of the 3D Ising transition on the fuzzy sphere. SciPost Phys. Core 7, 028.
• J.H. Westerfield, S.E. Worthington-Kirsch (2024). westerfit: A new program for spin–torsion–rotation spectra. Journal of Molecular Spectroscopy 404, 111928.

• E. Bianchi, P. Donà, I. Vilensky (2018). Entanglement entropy of Bell-network states in LQG: Analytical and numerical results. arXiv:1812.10996
• R. Kothari, D. Nandi (2019). B-Mode auto-bispectrum due to matter bounce. arXiv:1901.06538
• F. Gozzini, F. Vidotto (2019). Primordial fluctuations from quantum gravity. arXiv:1906.02211
• M. Finocchiaroa, D. Oriti (2020). Renormalization of group field theories for quantum gravity: new computations and some suggestions. arXiv:2004.07361
• M. Kisielowski (2021). Properties of the Rovelli-Smolin-DePietri volume operator in the spaces of monochromatic intertwiners. arXiv:2104.11010
• A. Egel, K. M. Czajkowski, D. Theobald, K. Ladutenko, A. S. Kuznetsov, L. Pattelli (2021). SMUTHI: A python package for the simulation of light scattering by multiple particles near or between planar interfaces. arXiv:2105.04259
• F. Gozzini (2021). A high-performance code for EPRL spin foam amplitudes. arXiv:2107.13952
• C. Li, V. L. Quito, E. Miranda, R. Pereira, I. Affleck, P. L. S. Lopes (2021). The case of SU(3) criticality in spin-2 chains. arXiv:2108.10329
• J. Alcock-Zeilinger, S. Keppeler, S. Plätzer, M. Sjodahl (2022). Wigner 6j symbols for SU(N): Symbols with at least two quark-lines. arXiv:2209.15013
• P. Dona, M. Han, H. Liu (2022). Spinfoams and high performance computing. arXiv:2212.14396
• P. Frisoni, F. Gozzini, F. Vidotto (2023). Primordial fluctuations from quantum gravity: 16-cell topological model. arXiv:2312.02399
• K. M. Surrao, J. Colin Hill (2024). Constraining Cosmological Parameters with Needlet Internal Linear Combination Maps I: Analytic Power Spectrum Formalism. arXiv:2403.02261
• F. Gerick, P. Livermore (2024). Interannual Magneto-Coriolis modes and their sensitivity on the magnetic field within the Earth's core. arXiv:2403.03011

• D. Ritchie (2018). Whole Number Recursion Formulae for High Order Clebsch-Gordan Coupling Coefficients . (hal-01851097)

Other citing works

• D. Woods (2015). Variational Calculations of Positronium Scattering with Hydrogen. PhD thesis, University of North Texas. (arXiv:1508.05681)
• A. E. da Mota Loureiro (2019). The Universe in Harmonic Space: Neutrinos and Dark Energy. PhD thesis, University College London.
• I. Vilensky (2019). Loop Quantum Gravity Dynamics: Models and Applications. PhD thesis, Florida Atlantic University.
• J. Herbel (2019). A forward-modeling approach to cosmic shear. PhD thesis, ETH Zürich.
• A. Stepšys (2020). Application of the algebraic binary cluster modelfor six nucleon systems in a translationallyinvariant basis. PhD thesis, Vilnius University.
• G. Sarno (2020). A numerical approach to spin foam models of quantum gravity. PhD thesis, Aix-Marseille Université.
• X. Wang (2020). Theoretical cross sections for more accurate calculations of dosimetric quantities. PhD thesis, McGill University.
• K. Dzikowski (2021). Effective charge model for multi-electron atoms. PhD thesis, Heidelberg University.
• S.E.D. Lawrence (2021). Non-linear relativistic effects on cosmological perturbations. PhD thesis, University of Portsmouth.
• L. Ji (2022). The Inhomogeneous Universe: Dark Matter, Gravitational Lensing, and 21cm Polarization. PhD thesis, Johns Hopkins University.
• Z. Polonsky (2022). Perturbative Electroweak Corrections in the Standard Model and Beyond. PhD thesis, University of Cincinnati.
• N. F. Romeo (2023). Geometry and Transport in Development. PhD thesis, Massachusetts Institute of Technology.
• O. C. Gorton (2024). Shell Model Methods, Statistical Nuclear Reactions, and Beta-delayed Neutron Emission. PhD thesis, Univerity of California, Irvine.

• P. A. Martin (2017). Corrections and additions: Multiple Scattering: Interaction of Time-Harmonic Waves with N Obstacles. Original book: Cambridge University Press, 2006.
• K. Srinivasa Rao and V. Lakshminarayanan (2018). Angular momentum and the rotation group, chapter in: Generalized Hypergeometric Functions. IOP Publishing Ltd, 2018.
• R.W. Donley Jr., W.G. Kim (2017). A rational theory for Clebsch-Gordan coefficients. arXiv:1707.03022
• P. Jansen (2020). High-Resolution Spectroscopy of the Metastable Helium Molecule and its Cation. Habilitationsschrift, ETH Zürich.