LENPIC

Low Energy Nuclear Physics International Collaboration

Publications

Submitted or accepted papers:

Magnetic moments of A=3A=3 nuclei with chiral effective field theory operators: S. Pal, S. Sarker, P. Fasano, P. Maris, J. Vary, M. Caprio; arXiv:2304.01389 [nucl-th]

The nucleon-induced deuteron breakup process as a laboratory for chiral dynamics: R. Skibiński, J. Golak, H. Witała, V. Chahar, E. Epelbaum, A. Nogga, V. Soloviov; Front. in Phys. 11 (2023) 1084040.

Nuclear properties with semilocal momentum-space regularized chiral interactions beyond N2LO: P. Maris, R. Roth, E. Epelbaum, R.J. Furnstahl, J. Golak, K. Hebeler, T. Hüther, H. Kamada, H. Krebs, H. Le, U.-G. Meißner, J.A. Melendez, A. Nogga, P. Reinert, R. Skibiński, J. P. Vary, H. Witała, T. Wolfgruber; arXiv:2206.13303 [nucl-th], Phys. Rev. C 106 (2022) 5, 064002.

Significance of chiral three-nucleon force contact terms for understanding of elastic nucleon-deuteron scattering: H. Witała, J. Golak, R. Skibiński; arXiv:2203.08499 [nucl-th], Phys. Rev. C 105 (2022) 5, 054004.

Comprehensive investigation of the symmetric space-star configuration in the nucleon-deuteron breakup: H. Witała, J. Golak, R. Skibiński, K. Topolnicki, E. Epelbaum, H. Krebs, P. Reinert; arXiv:2102.09863 [nucl-th], Phys. Rev. C 104 (2021) 1, 014002.

Efficient emulator for solving three-nucleon continuum Faddeev equations with chiral three-nucleon force comprising any number of contact terms: H. Witała, J. Golak, R. Skibiński; arXiv:2103.13237 [nucl-th], Eur. Phys. J. A 57 (2021) 7, 241.

Perturbative treatment of three-nucleon force contact terms in three-nucleon Faddeev equations: H. Witała, J. Golak, R. Skibiński, K. Topolnicki; arXiv:2102.13408 [nucl-th], Few Body Syst. 62 (2021) 2, 23.

Light nuclei with semilocal momentum-space regularized chiral interactions up to third order: P. Maris, E. Epelbaum, R.J. Furnstahl, J. Golak, K. Hebeler, T. Hüther, H. Kamada, H. Krebs, U.-G. Meißner, J.A. Melendez, A. Nogga, P. Reinert, R. Roth, R. Skibiński, K. Topolnicki, J. P. Vary, Yu. Volkotrub, H. Witała, T. Wolfgruber; arXiv:2012.12396 [nucl-th], Phys. Rev. C 103 (2021) 5, 054001.

Applications of the chiral potential with the semi-local regularization in momentum space to the disintegration processes: V. Urbanevych, R. Skibiński, H. Witała, J. Golak, K. Topolnicki, A. Grassi, E. Epelbaum, H. Krebs; arXiv:2007.14836 [nucl-th], Phys. Rev. C 103 (2021) 2, 024003.

Uncertainty of three-nucleon continuum observables arising from uncertainties of two-nucleon potential parameters: Yu. Volkotrub, J. Golak, R. Skibiński, K. Topolnicki, H. Witała, E. Epelbaum, H. Krebs, P. Reinert; arXiv:2003.06175 [nucl-th], J. Phys. G. 47 (2020) 10.

Investigations of the few-nucleon systems within the LENPIC project: J. Golak, E. Epelbaum, A. Grassi, H. Kamada, H. Krebs, P. Reinert, R. Skibiński, V. Soloviov, K. Topolnicki, V. Urbanevych, Yu. Volkotrub, H. Witała; SciPost Phys. Proc. 3 (2020) 002.

3N Continuum Reactions with Semilocal Coordinate-Space Regularized Chiral Forces: H. Witała, J. Golak, R. Skibiński, K. Topolnicki; Springer Proc. Phys. 238 (2020) 433.

Correlations among observables in two- and three-nucleon systems: Yu. Volkotrub, J. Golak, R. Skibiński, K. Topolnicki, H. Witała; Acta Phys. Pol. B 51 (2020) 273.

High-precision nuclear forces from chiral EFT: State-of-the-art, challenges and outlook: E. Epelbaum, H. Krebs, P. Reinert; arXiv:1911.11875 [nucl-th] (review article), Front. in Phys. 8 (2020) 98.

Towards high-order calculations of three-nucleon scattering in chiral effective field theory: E. Epelbaum, J. Golak, K. Hebeler, H. Kamada, H. Krebs, U.-G. Meißner, A. Nogga, P. Reinert, R. Skibiński, K. Topolnicki, Yu. Volkotrub, H. Witała; arXiv:1907.03608 [nucl-th], Eur. Phys. J. A 56 (2020) 3, 92.

Ab initio calculations of p-shell nuclei up to N2LO in chiral Effective Field Theory: Pieter Maris; arXiv:1906.03703 [nucl-th], J. Phys. Conf. Ser. 1291 (2019) 012005

Application of Semilocal Coordinate-Space Regularized Chiral Forces to Elastic Nd Scattering and Breakup: H. Witała, J. Golak, R. Skibiński, K. Topolnicki, E. Epelbaum, K. Hebeler, H. Kamada, H. Krebs, U.-G. Meißner, A. Nogga; Few Body Syst. 60 (2019) 19

Effective operators in two-nucleon systems: J. P. Vary, R. Basili, W. Du, M. Lockner, P. Maris, S. Pal and S. Sarker; arXiv:1809.00276 [nucl-th], Phys. Rev. C98 (2018) 065502.

Few- and many-nucleon systems with semilocal coordinate-space regularized chiral two- and three-body forces: E. Epelbaum, J. Golak, K. Hebeler, T. Hüther, H. Kamada, H. Krebs, P. Maris, U.-G. Meißner, A. Nogga, R. Roth, R. Skibiński, K. Topolnicki, J. P. Vary, K. Vobig, H. Witała; arXiv:1807.02848 [nucl-th], Phys. Rev. C99 (2019) 024313

Few-nucleon and many-nucleon systems with semilocal coordinate-space regularized chiral nucleon-nucleon forces: S. Binder, A. Calci, E. Epelbaum, R. J. Furnstahl, J. Golak, K. Hebeler, T. Hüther, H. Kamada, H. Krebs, P. Maris, U.-G. Meißner, A. Nogga, R. Roth, R. Skibiński, K. Topolnicki, J. P. Vary, K. Vobig, H. Witała; arXiv:1802.08584 [nucl-th], Phys. Rev. C98 (2018) 014002

Nucleon-deuteron scattering with the JISP16 potential: R. Skibiński, J. Golak, K. Topolnicki, H. Witała, Yu. Volkotrub, H. Kamada, A.M. Shirokov, R. Okamoto, K. Suzuki, J. Vary; arXiv:1706.03846 [nucl-th], Phys. Rev. C97 (2018) 014002

Workshop on Chiral Forces in Low Energy Nuclear Physics - the LENPIC Meeting: J. Golak (ed), R. Skibiński (ed); arXiv:1705.01530 [nucl-th]

Role of the Total Isospin 3/2 Component in Three-Nucleon Reactions: H. Witała, J. Golak, R. Skibiński, K. Topolnicki, E. Epelbaum, K. Hebeler, H. Kamada, H. Krebs, U.-G. Meißner, A. Nogga; arXiv:1605.02011 [nucl-th], Few-Body Syst. 57 (2016) 1213

Testing semilocal chiral two-nucleon interaction in selected electroweak processes: R. Skibiński, J. Golak, K. Topolnicki, H. Witała, E. Epelbaum, H. Kamada, H. Krebs, U.-G. Meißner, A. Nogga; arXiv:1604.03395 [nucl-th], Phys. Rev. C93 (2016) 064002

Properties of 4He and 6Li with improved chiral EFT interactions: P. Maris, S. Binder, A. Calci, E. Epelbaum, R. J. Furnstahl, J. Golak, K. Hebeler, H. Kamada, H. Krebs, J. Langhammer, S. Liebig, U.-G. Meißner, D. Minossi, A. Nogga, H. Potter, R. Roth, R. Skibiński, K. Topolnicki, J. P. Vary, H. Witała; EPJ Web Conf. 113 (2016) 04015

Studies of three-nucleon systems with improved chiral forces: R. Skibiński, J. Golak, K. Topolnicki, H. Witała, E. Epelbaum; EPJ Web Conf. 113 (2016) 04002

Few-nucleon systems with state-of-the-art chiral nucleon-nucleon forces: S. Binder, A. Calci, E. Epelbaum, R. J. Furnstahl, J. Golak, K. Hebeler, H. Kamada, H. Krebs, J. Langhammer, S. Liebig, P. Maris, U.-G. Meißner, D. Minossi, A. Nogga, H. Potter, R. Roth, R. Skibiński, K. Topolnicki, J. P. Vary, H. Witała; arXiv:1505.07218 [nucl-th], Phys. Rev. C93 (2016) 044002

Efficient calculation of chiral three-nucleon foces up to N3LO for ab initio studies: K. Hebeler, H. Krebs, E. Epelbaum, J. Golak, R. Skibinski; arXiv:1502.02977 [nucl-th], Phys. Rev. C91 (2015) 4, 044001

Low-energy neutron-deuteron reactions with N3LO chiral forces: J. Golak, R. Skibiński, K. Topolnicki, H. Witała, E. Epelbaum, H. Krebs, H. Kamada, U.-G. Meißner, V. Bernard, P. Maris, J. Vary, S. Binder, A. Calci, J. Langhammer, R. Roth, K. Hebeler, A. Nogga, S. Liebig, D. Minossi; arXiv:1410.0756 [nucl-th], Eur. Phys. J. A50 (2014) 177

Related publications:

Nuclear structure and elastic scattering observables obtained consistently with different NN interactions: R.B. Baker, M. Burrows, Ch. Elster, P. Maris, G. Popa, S.P. Weppner; arXiv:2306.12597 [nucl-th].

Chiral uncertainties in ab initio nucleon-nucleus elastic scattering: R.B. Baker, M. Burrows, Ch. Elster, K.D. Launey, P. Maris, G. Popa, S.P. Weppner; arXiv:2301.04293 [nucl-th], Front. Phys. 10 (2023).

Semi-local Nuclear Forces From Chiral EFT: State-of-the-Art and Challenges: E. Epelbaum, H. Krebs, P. Reinert; arXiv:2206.07072 [nucl-th], Part of Handbook of Nuclear Physics, Springer, ISBN: 9789811588181.

Nuclear Forces for Precision Nuclear Physics: A Collection of Perspectives: I. Tews et al.,; arXiv:2202.01105 [nucl-th], Few Body Syst. 63 (2022) 4, 67.

Ab initio nucleon-nucleus elastic scattering with chiral effective field theory uncertainties: R.B. Baker, B. McClung, Ch. Elster, P. Maris, S.P. Weppner, M. Burrows, G. Popa; arXiv:2112.02442 [nucl-th], Phys. Rev. C 106 (2022) 6, 064605.

Nuclear spin features relevant to ab initio nucleon-nucleus elastic scattering: R.B. Baker, M. Burrows, Ch. Elster, K. D. Launey, P. Maris, G. Popa, S.P. Weppner; arXiv:2102.01025 [nucl-th], Phys. Rev. C 103 (2021) 5, 054314.

High-accuracy calculation of the deuteron charge and quadrupole form factors in chiral effective field theory: A.A. Filin, D. Moöller, V. Baru, E. Epelbaum, H. Krebs, P. Reinert; arXiv:2009.08911 [nucl-th], Phys. Rev. C 103 (2021) 2, 024313.

Nuclear Currents in Chiral Effective Field Theory: H. Krebs; arXiv:2008.00974 [nucl-th], Eur. Phys. J. A56 (2020) 9, 234.

Precision determination of pion-nucleon coupling constants using effective field theory: P. Reinert, H. Krebs, E. Epelbaum; arXiv:2006.15360 [nucl-th]

Subleading contributions to the nuclear scalar isoscalar currents: H. Krebs, E. Epelbaum, U.-G. Meißner; arXiv:2005.07433 [nucl-th], Eur. Phys. J. A56 (2020) 9, 240.

High-Precision Nucleon-Nucleon Potentials from Chiral EFT: P. Reinert, H. Krebs, E. Epelbaum; Springer Proc. Phys. 238 (2020) 497.

How to renormalize integral equations with singular potentials in effective field theory: E. Epelbaum, A. M. Gasparyan, J. Gegelia, U. G. Meißner and X.-L. Ren; arXiv:2001.07040 [nucl-th], Eur. Phys. J. A56 (2020) 5, 152.

High-Precision Nucleon-Nucleon Potentials from Chiral EFT: P. Reinert, H. Krebs, E. Epelbaum; Springer Proc. Phys. 238 (2020) 497.

The First Application of the Chiral SMS Nucleon–Nucleon Interaction to the Deuteron Photodisintegration Process: V. Urbanevych, J. Golak, R. Skibiński, H. Witała; Acta Phys. Pol. B 51 (2020) 389.

Family of Chiral Two- plus Three-Nucleon Interactions for Accurate Nuclear Structure Studies: Th.Hüther, K. Vobig, K. Hebeler, R. Machleidt, R. Roth; arXiv:1911.04955 [nucl-th], Phys. Lett. B808 (2020) 135651.

Extraction of the neutron charge radius from a precision calculation of the deuteron structure radius: A.A. Filin, V. Baru, E. Epelbaum, H. Krebs, D. Moöller, P. Reinert; arXiv:1911.04877 [nucl-th], Phys. Rev. Lett. 124 (2020) 8, 082501.

Towards high-precision nuclear forces from chiral effective field theory: E. Epelbaum; arXiv:1908.09349 [nucl-th], in Proceedings of 6th International Conference Nuclear Theory in the Supercomputing Era (NTSE-2018), 29 October - 02 November 2018, Daejeon, Korea.

Electroweak Current Operators in Chiral Effective Field Theory: Hermann Krebs; arXiv:1908.00138 [nucl-th], in Proceedings of 6th International Conference Nuclear Theory in the Supercomputing Era (NTSE-2018), 29 October - 02 November 2018, Daejeon, Korea.

Deep Learning: A Tool for Computational Nuclear Physics: G. A. Negoita, G. R. Luecke, J. P. Vary, P. Maris, A. M. Shirokov, I. J. Shin, Y. Kim, E. G. Ng and C. Yang; arXiv:1803.03215 [nucl-th], in Proceedings of the Ninth International Conference on Computational Logics, Algebras, Programming, Tools, and Benchmarking COMPUTATION TOOLS 2018 February 18–22, 2018, Barcelona, Spain, pp 20-28, (2018)

Ab Initio Structure of p-Shell Nuclei with Chiral Effective Field Theory and Daejeon16 Interactions: Pieter Maris, Ik Jae Shin, James P. Vary; arXiv:1908.00155 [nucl-th], in Proceedings of 9th International Workshop on Chiral Dynamics (CD18), 27 - 21 September 2018, Durham, NC, USA.

Semilocal momentum-space regularized chiral two-nucleon potentials up to fifth order: P. Reinert, H. Krebs, E. Epelbaum; arXiv:1711.08821 [nucl-th], Eur. Phys. A. A54 (2018) 86

Modern Chiral Forces Applied to the Nucleon–Deuteron Radiative Capture: R. Skibiński, J. Golak, K. Topolnicki, H. Witała, E. Epelbaum, H. Kamada, H. Krebs, U.-G. Meißner, A. Nogga,; Few-Body Syst. 58 (2017) 28

Accelerating nuclear configuration interaction calculations through a preconditioned block iterative eigensolver: M. Shao, H.M. Aktulga, C. Yang, E.G. Ng, P. Maris and J.P. Vary; arXiv:1609.01689 [nucl-th], Computational Physics Communications (CPC), 222, 1 (2018)

Nuclear axial current operators to fourth order in chiral effective field theory: H. Krebs, E. Epelbaum, U.-G. Meißner; arXiv:1610.03569 [nucl-th], Annals Phys. 378 (2017) 317

Chiral nuclear forces: Recent developments: E. Epelbaum; EPJ Web Conf. 113 (2016) 04020

Nuclear chiral EFT in the precision era: E. Epelbaum; arXiv:1512.05625 [nucl-th], PoS(CD15)014

The long and winding road from chiral effective Lagrangians to nuclear structure: U.-G. Meißner; arXiv:1510.03230 [nucl-th], Phys. Scripta 91 (2016) no. 3, 033005.

Precision nucleon-nucleon potential at fifth order in the chiral expansion: E. Epelbaum, H. Krebs, U.-G. Meißner; arXiv:1412.4623 [nucl-th], Phys. Rev. Lett. 115 (2015) 12, 122301

Improved chiral nucleon-nucleon potential up to next-to-next-to-next-to-leading order: E. Epelbaum, H. Krebs, U.-G. Meißner; arXiv:1412.0142 [nucl-th], Eur. Phys. J. A51 (2015) 5, 53

Three-nucleon force at large distances: Insights from chiral effective field theory and the large-N_c expansion: E. Epelbaum, A.M. Gasparyan, H. Krebs, C. Schat; arXiv:1411.3612 [nucl-th], Eur. Phys. J. A51 (2015) 3, 26

Anthropic considerations in nuclear physics: U.-G. Meißner; arXiv:1409.2959 [hep-th], Sci. Bull. (2015) 60(1): 43-54

Quantum Hamiltonian Physics with Supercomputers: J. Vary; Nucl.Phys.Proc.Suppl. 251-252 (2014) 155-164