Implications of a matter-radius measurement for the structure of Carbon-22 B Acharya, C Ji, DR Phillips
Physics Letters B 723 (1-3), 196-200, 2013
77 2013 19C in halo EFT: Effective-range parameters from Coulomb dissociation experiments B Acharya, DR Phillips
Nuclear Physics A 913, 103-115, 2013
48 2013 Uncertainty quantification for proton–proton fusion in chiral effective field theory B Acharya, BD Carlsson, A Ekström, C Forssén, L Platter
Physics Letters B 760, 584-589, 2016
38 2016 Neutrino-deuteron scattering: Uncertainty quantification and new constraints B Acharya, S Bacca
Physical Review C 101 (1), 015505, 2020
27 2020 Ab Initio Computation of the Longitudinal Response Function in JE Sobczyk, B Acharya, S Bacca, G Hagen
Physical Review Letters 127 (7), 072501, 2021
21 2021 Coulomb sum rule for and from coupled-cluster theory JE Sobczyk, B Acharya, S Bacca, G Hagen
Physical Review C 102 (6), 064312, 2020
19 2020 Theoretical tools for neutrino scattering: interplay between lattice QCD, EFTs, nuclear physics, phenomenology, and neutrino event generators LA Ruso, AM Ankowski, S Bacca, AB Balantekin, J Carlson, S Gardiner, ...
arXiv preprint arXiv:2203.09030, 2022
17 2022 Gaussian process error modeling for chiral effective-field-theory calculations of np↔ dγ at low energies B Acharya, S Bacca
Physics Letters B 827, 137011, 2022
16 2022 Effective-field-theory analysis of Efimov physics in heteronuclear mixtures of ultracold atomic gases B Acharya, C Ji, L Platter
Physical Review A 94 (3), 032702, 2016
16 2016 Dispersive evaluation of the Lamb shift in muonic deuterium from chiral effective field theory B Acharya, V Lensky, S Bacca, M Gorchtein, M Vanderhaeghen
Physical Review C 103 (2), 024001, 2021
14 2021 Effective-field-theory predictions of the muon-deuteron capture rate B Acharya, A Ekström, L Platter
Physical Review C 98 (6), 065506, 2018
12 2018 Bayesian analysis of nuclear polarizability corrections to the Lamb shift of muonic H-atoms and He-ions SSL Muli, B Acharya, OJ Hernandez, S Bacca
Journal of Physics G: Nuclear and Particle Physics 49 (10), 105101, 2022
7 2022 Corrections to nucleon capture cross sections computed in truncated Hilbert spaces B Acharya, A Ekström, D Odell, T Papenbrock, L Platter
Physical Review C 95 (3), 031301, 2017
7 2017 Universal behavior of -wave proton-proton fusion near threshold B Acharya, L Platter, G Rupak
Physical Review C 100 (2), 021001, 2019
6 2019 Fundamental Symmetries, Neutrons, and Neutrinos (FSNN): Whitepaper for the 2023 NSAC Long Range Plan B Acharya, C Adams, AA Aleksandrova, K Alfonso, P An, S Baeßler, ...
arXiv preprint arXiv:2304.03451, 2023
4 2023 Uncertainty quantification in electromagnetic observables of nuclei B Acharya, S Bacca, F Bonaiti, SS Li Muli, JE Sobczyk
Frontiers in Physics 10, 1066035, 2023
4 2023 Properties of Lithium-11 and Carbon-22 at leading order in halo effective field theory B Acharya, DR Phillips
EPJ Web of Conferences 113, 06013, 2016
4 2016 Ca transverse response function from coupled-cluster theoryJ Sobczyk, B Acharya, S Bacca, G Hagen
arXiv preprint arXiv:2310.03109, 2023
3 2023 Efimov effect for heteronuclear three-body systems at positive scattering length and finite temperature SB Emmons, D Kang, B Acharya, L Platter
Physical Review A 96 (3), 032706, 2017
3 2017 Properties of One-and Two-Nucleon Halo Nuclei in Effective Field Theory B Acharya
Ohio University, 2015
3 2015