Electromagnetic structure of<mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" display="inline"><mml:mrow><mml:mi>A</mml:mi><mml:mo>=</mml:mo><mml:mn>2</mml:mn></mml:mrow></mml:math>and 3 nuclei in chiral effective field theory

Piarulli, M.; Girlanda, L.; Marcucci, L. E.; Pastore, Saori; Schiavilla, R.; Viviani, M.

doi:10.1103/physrevc.87.014006

Cited by 121 publications

(340 citation statements)

References 74 publications

(38 reference statements)

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“…It is should be noted that this observable has negligible contributions due to two-body electromagnetic operators [65]. The magnetic moment, µ d , and quadrupole moment, Q d , experimental values are underestimated by all three models, but these observables are known to have significant corrections from (isoscalar) two-body terms in nuclear electromagnetic charge and current [65]. Their inclusion would bring the calculated values considerably closer to, if not in agreement with, experiment.…”

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confidence: 92%

“…The deuteron (matter) radius, r d , is exactly reproduced with model b, but is under-predicted (over-predicted) by about 1.4% (0.7%) with model a (model c). It is should be noted that this observable has negligible contributions due to two-body electromagnetic operators [65]. The magnetic moment, µ d , and quadrupole moment, Q d , experimental values are underestimated by all three models, but these observables are known to have significant corrections from (isoscalar) two-body terms in nuclear electromagnetic charge and current [65].…”

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confidence: 99%

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Minimally nonlocal nucleon-nucleon potentials with chiral two-pion exchange includingΔresonances

et al. 2015

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We construct a coordinate-space chiral potential, including ∆-isobar intermediate states in its two-pion-exchange component up to order Q 3 (Q denotes generically the low momentum scale). The contact interactions entering at next-to-leading and next-to-next-to-next-to-leading orders (Q 2 and Q 4 , respectively) are rearranged by Fierz transformations to yield terms at most quadratic in the relative momentum operator of the two nucleons. The low-energy constants multiplying these contact interactions are fitted to the 2013 Granada database, consisting of 2309 pp and 2982 np data (including, respectively, 148 and 218 normalizations) in the laboratory-energy range 0-300 MeV. For the total 5291 pp and np data in this range, we obtain a χ 2 /datum of roughly 1.3 for a set of three models characterized by long-and short-range cutoffs, RL and RS respectively, ranging from (RL, RS) = (1.2, 0.8) fm down to (0.8, 0.6) fm. The long-range (short-range) cutoff regularizes the one-and two-pion exchange (contact) part of the potential.

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confidence: 92%

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confidence: 99%

Minimally nonlocal nucleon-nucleon potentials with chiral two-pion exchange includingΔresonances

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“…The inclusion of 3N interactions in the initial Hamiltonian is crucial for achieving this good reproduction of the experimental level data: It stabilizes the spacing between the neutron 0d 3/2 orbital and the other levels in the sd-shell as neutrons are added, which governs the energies of low-lying excitations and the location of the neutron drip line [55,128,160,163]. We note that the excited states in 23,24 O are overestimated to some degree, but this is expected because our Shell model calculations do not explicitly treat the continuum coupling at present, and the N N +3N (400) Hamiltonian produces a too-pronounced shell closure at N = 16 (see section 6.1).…”

Section: Spectroscopy Of Sd-shell Nucleimentioning

confidence: 99%

“…Instead, we start from nuclear interactions that describe low-energy QCD observables in the N N and 3N systems, like scattering data or binding energies. Nowadays, such interactions are derived in Chiral Effective Field Theory (EFT), which provides a constructive framework and organizational hierarchy for N N , 3N , and higher many-nucleon forces, as well as consistent electroweak operators (see, e.g., [14][15][16][17][18][19][20][21][22][23][24][25]). Since Chiral EFT is a lowmomentum expansion, high-momentum (short-range) physics is not explicitly resolved by the theory, but parametrized by the so-called low-energy constants (LECs).…”

Section: Introductionmentioning

confidence: 99%

In-medium similarity renormalization group for closed and open-shell nuclei

Hergert¹

2016

Phys. Scr.

145

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Abstract. We present a pedagogical introduction to the In-Medium Similarity Renormalization Group (IMSRG) framework for ab initio calculations of nuclei. The IMSRG performs continuous unitary transformations of the nuclear many-body Hamiltonian in second-quantized form, which can be implemented with polynomial computational effort. Through suitably chosen generators, it is possible to extract eigenvalues of the Hamiltonian in a given nucleus, or drive the Hamiltonian matrix in configuration space to specific structures, e.g., band-or block-diagonal form.Exploiting this flexibility, we describe two complementary approaches for the description of closed-and open-shell nuclei: The first is the Multireference IMSRG (MR-IMSRG), which is designed for the efficient calculation of nuclear ground-state properties. The second is the derivation of nonempirical valence-space interactions that can be used as input for nuclear Shell model (i.e., configuration interaction (CI)) calculations. This IMSRG+Shell model approach provides immediate access to excitation spectra, transitions, etc., but is limited in applicability by the factorial cost of the CI calculations.We review applications of the MR-IMSRG and IMSRG+Shell model approaches to the calculation of ground-state properties for the oxygen, calcium, and nickel isotopic chains or the spectroscopy of nuclei in the lower sd shell, respectively, and present selected new results, e.g., for the ground-and excited state properties of neon isotopes.Submitted to: Phys. Scr.

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“…We fix the low-energy constants c D and c E that appear in the N 2 LO 3NF within the three-nucleon sector. Specifically, we constrain them to reproduce binding energies of A = 3 nuclei together with the Gamow-Teller matrix element in tritium β-decay, following a well established procedure [21,[28][29][30][31][32][33]. The values of c D and c E are given in Table II for the different chiral orders and cutoff scales.…”

Section: B Chiral Three-body Interactionsmentioning

confidence: 99%

Toward order-by-order calculations of the nuclear and neutron matter equations of state in chiral effective field theory

et al. 2015

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We calculate the nuclear and neutron matter equations of state from microscopic nuclear forces at different orders in chiral effective field theory and with varying momentum-space cutoff scales. We focus attention on how the order-by-order convergence depends on the choice of resolution scale and the implications for theoretical uncertainty estimates on the isospin asymmetry energy. Specifically we study the equations of state using consistent NLO and N 2 LO (next-to-next-to-leading order) chiral potentials where the low-energy constants cD and cE associated with contact vertices in the N 2 LO chiral three-nucleon force are fitted to reproduce the binding energies of 3 H and 3 He as well as the beta-decay lifetime of 3 H. At these low orders in the chiral expansion there is little sign of convergence, while an exploratory study employing the N 3 LO two-nucleon force together with the N 2 LO three-nucleon force give first indications for (slow) convergence with low-cutoff potentials and poor convergence with higher-cutoff potentials. The consistent NLO and N 2 LO potentials described in the present work provide the basis for estimating theoretical uncertainties associated with the order-by-order convergence of nuclear many-body calculations in chiral effective field theory.

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Electromagnetic structure ofA=2and 3 nuclei in chiral effective field theory

Cited by 121 publications

References 74 publications

Minimally nonlocal nucleon-nucleon potentials with chiral two-pion exchange includingΔresonances

Minimally nonlocal nucleon-nucleon potentials with chiral two-pion exchange includingΔresonances

In-medium similarity renormalization group for closed and open-shell nuclei

Toward order-by-order calculations of the nuclear and neutron matter equations of state in chiral effective field theory

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