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NSR database version of May 24, 2024.

Search: Author = J.M.Alarcon

Found 11 matches.

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2023AL05      Phys.Rev. C 107, 044319 (2023)

J.M.Alarcon, J.A.Oller

Nuclear matter from the ladder resummation in terms of the experimental nucleon-nucleon scattering amplitudes

doi: 10.1103/PhysRevC.107.044319
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2022AL18      Phys.Rev. C 106, 054003 (2022)

J.M.Alarcon, J.A.Oller

Ultracold spin-balanced fermionic quantum liquids with renormalized P-wave interactions

doi: 10.1103/PhysRevC.106.054003
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2020AL14      Phys.Rev. C 102, 035203 (2020)

J.M.Alarcon, D.W.Higinbotham, C.Weiss

Precise determination of the proton magnetic radius from electron scattering data

NUCLEAR REACTIONS 1H(e-, e-), E=0.180-0.855 GeV; analyzed experimental data from Mainz using dispersion analysis and chiral effective field theory (DIχEFT) with parameters from best fit; deduced electric and magnetic radii, magnetic radius of proton. Comparison with experimental results from Mainz A1 and earlier world data.

doi: 10.1103/PhysRevC.102.035203
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2019AL13      Phys.Rev. C 99, 044303 (2019)

J.M.Alarcon, D.W.Higinbotham, C.Weiss, Z.Ye

Proton charge radius extraction from electron scattering data using dispersively improved chiral effective field theory

NUCLEAR REACTIONS 1H(e, e), E not given; analyzed proton charge radius of 0.844(7) fm using measured elastic cross sections with a theoretical framework combining chiral effective field theory and dispersion analysis.

doi: 10.1103/PhysRevC.99.044303
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2018AL22      Phys.Rev. C 97, 055203 (2018)

J.M.Alarcon, C.Weiss

Nucleon form factors in dispersively improved chiral effective field theory. II. Electromagnetic form factors

doi: 10.1103/PhysRevC.97.055203
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2017AL18      Eur.Phys.J. A 53, 83 (2017)

J.M.Alarcon, D.Du, N.Klein, T.A.Lahde, D.Lee, N.Li, B.-N.Lu, T.Luu, Ulf-G.Meissner

Neutron-proton scattering at next-to-next-to-leading order in Nuclear Lattice Effective Field Theory

NUCLEAR STRUCTURE 4He, 8Be, 12C, 16O, 20Ne, 24Mg, 28Si;calculated binding energy, mass excess using 2N forces up to NNLO in the NLEFT (Nuclear Lattice Effective Field Theory);deduced parameters using available data.

doi: 10.1140/epja/i2017-12273-x
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2017AL19      Nucl.Phys. A964, 18 (2017)

J.M.Alarcon, A.N.Hiller Blin, M.J.Vicente Vacas, C.Weiss

Peripheral transverse densities of the baryon octet from chiral effective field theory and dispersion analysis

NUCLEAR STRUCTURE 1n, 1H; calculated isovector spectral form factors, isovector, isoscalar, total transition and magnetization densities using χEFT (Relativistic Chiral Field Theory).

doi: 10.1016/j.nuclphysa.2017.05.002
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2017AL37      Phys.Rev. C 96, 055206 (2017)

J.M.Alarcon, C.Weiss

Nucleon form factors in dispersively improved chiral effective field theory: Scalar form factor

doi: 10.1103/PhysRevC.96.055206
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2016EL03      Phys.Rev.Lett. 117, 132501 (2016)

S.Elhatisari, N.Li, A.Rokash, J.M.Alarcon, D.Du, N.Klein, B.-n.Lu, U.-G.Meissner, E.Epelbaum, H.Krebs, Ti.A.Lahde, De.Lee, G.Rupak

Nuclear Binding Near a Quantum Phase Transition

NUCLEAR STRUCTURE 3H, 3,4He, 8Be, 12C, 16O, 20Ne; calculated ground state energies; deduced a first-order transition at zero temperature from a Bose-condensed gas of alpha particles to a nuclear liquid. Leading order (LO) nuclear interactions.

doi: 10.1103/PhysRevLett.117.132501
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2014LE33      Phys.Rev. C 90, 055202 (2014)

V.Lensky, J.M.Alarcon, V.Pascalutsa

Moments of nucleon structure functions at next-to-leading order in baryon chiral perturbation theory

doi: 10.1103/PhysRevC.90.055202
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2011AL14      Phys.Rev. C 83, 055205 (2011); Erratum Phys.Rev. C 87, 059901 (2013)

J.M.Alarcon, J.Martin Camalich, J.A.Oller, L.Alvarez-Ruso

πN scattering in relativistic baryon chiral perturbation theory reexamined

doi: 10.1103/PhysRevC.83.055205
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