This web page presents two-nucleon densities calculated for a variety of nuclei in the range A=2-12. Corresponding single-nucleon densities can be found here. These are from variational Monte Carlo calculations (VMC) using either the Argonne v18 two-nucleon and Urbana X three-nucleon potentials (AV18+UX) or one of the Norfolk Δ-full chiral effective field theory interactions: NV2+3-Ia, -Ia*, -Ib*, -IIa*, -IIb*.
Original density and momentum distribution results for AV18+UX were reported
in:
Wiringa, et al., Phys. Rev. C 89, 024305 (2014).
The results with Norfolk chiral EFT interactions are reported in:
Piarulli, et al., Phys. Rev C 107, 014314 (2023).
Please cite the above papers when using results from these pages.
These VMC wave functions are the starting trial functions for a
number of recent Green's function Monte Carlo (GFMC) calculations:
Brida, et al., Phys. Rev. C 84, 024319 (2011);
McCutchan, et al., Phys. Rev. C 86, 024315 (2012);
Pastore, et al., Phys. Rev. C 87, 035503 (2013);
Datar, et al., Phys. Rev. Lett. 111, 062502 (2013);
Pastore, et al., Phys. Rev. C 90, 024321 (2014).
More details of the wave function construction can be found in
Wiringa, Phys. Rev. C 43, 1585 (1991) for A=3,4;
Pudliner, et al., Phys. Rev. C 56, 1720 (1997) for A=6,7;
Wiringa, et al., Phys. Rev. C 62, 014001 (2000) for A=8;
Pieper, et al., Phys. Rev. C 70, 044310 (2002) for A=9,10.
An excellent overall review of quantum Monte Carlo methods for nuclei
can be found at:
The largest nuclei are evaluated using the cluster VMC (CVMC) method.
The CVMC method is described in
The Norfolk interactions are described and used in the following papers:
Density distributions are provided for proton-proton, neutron-proton
and neutron-neutron (where different) pairs.
The densities are for the same wave functions used in generating the
two-nucleon momentum distributions given
here.
Following are figures and files that tabulate the two-nucleon densities
to give an overall view of their shapes.
The normalization is chosen such that:
Carlson, et al., Rev. Mod. Phys. 87, 1067 (2015)
Pieper, et al., Phys. Rev. C 46, 1741 (1992) for A=16 with AV1
4+UVII
Lonardoni, et al., Phys. Rev. C 96, 024326 (2017) for A=16,40 with AV18+UIX.
Piarulli, et al., Phys. Rev. C 94, 054007 (2016).
Piarulli, et al., Phys. Rev. Lett. 120, 052503 (2018).
Baroni, et al., Phys. Rev. C 98, 044003 (2018).
Schiavilla, et al., Phys. Rev. C 99, 034005 (2019).
Where pp and nn densities are the same, as in T=0 nuclei, we give only one set.
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2H(1+) AV18 Figure Table |
2H(1+) NV2-Ia Figure Table |
2H(1+) NV2-Ib Figure Table |
2H(1+) NV2-IIa Figure Table |
2H(1+) NV2-IIb Figure Table |
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3H(1/2+) AV18+UX Figure Table |
3H(1/2+) NV2+3-Ia Figure Table |
3H(1/2+) NV2+3-Ia* Figure Table |
3H(1/2+) NV2+3-Ib* Figure Table |
3H(1/2+) NV2+3-IIa* Figure Table |
3H(1/2+) NV2+3-IIb* Figure Table |
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3He(1/2+) AV18+UX Figure Table |
3He(1/2+) NV2+3-Ia Figure Table |
3He(1/2+) NV2+3-Ia* Figure Table |
3He(1/2+) NV2+3-Ib* Figure Table |
3He(1/2+) NV2+3-IIa* Figure Table |
3He(1/2+) NV2+3-IIb* Figure Table |
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4He(0+) AV18 Figure Table |
4He(0+) AV18+UX Figure Table |
4He(0+) NV2+3-Ia Figure Table |
4He(0+) NV2+3-Ia* Figure Table |
4He(0+) NV2+3-Ib* Figure Table |
4He(0+) NV2+3-IIa* Figure Table |
4He(0+) NV2+3-IIb* Figure Table |
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5H(1/2+) AV18+UX Figure Table |
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6He(0+) AV18+UX Figure Table |
6He(0+) NV2+3-Ia Figure Table |
6He(0+) NV2+3-Ia* Figure Table |
6He(0+) NV2+3-Ib* Figure Table |
6He(0+) NV2+3-IIa* Figure Table |
6He(0+) NV2+3-IIb* Figure Table |
6Li*(0+) AV18+UX Figure Table |
6Be(0+) AV18+UX Figure Table |
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6Li(1+) AV18+UX Figure Table |
6Li(1+) NV2+3-Ia Figure Table |
6Li(1+) NV2+3-Ia* Figure Table |
6Li(1+) NV2+3-Ib* Figure Table |
6Li(1+) NV2+3-IIa* Figure Table |
6Li(1+) NV2+3-IIb* Figure Table |
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7He(3/2-) AV18+UX Figure Table |
7Li*(3/2-) AV18+UX Figure Table |
7Be*(3/2-) AV18+UX Figure Table |
7B(3/2-) AV18+UX Figure Table |
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7Li(3/2-) AV18+UX Figure Table |
7Li(3/2-) NV2+3-Ia Figure Table |
7Li(3/2-) NV2+3-Ia* Figure Table |
7Li(3/2-) NV2+3-Ib* Figure Table |
7Li(3/2-) NV2+3-IIa* Figure Table |
7Li(3/2-) NV2+3-IIb* Figure Table |
7Be(3/2-) AV18+UX Figure Table |
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8He(0+) AV18+UX Figure Table |
8He(0+) NV2+3-Ia Figure Table |
8He(0+) NV2+3-Ia* Figure Table |
8He(0+) NV2+3-Ib* Figure Table |
8He(0+) NV2+3-IIa* Figure Table |
8He(0+) NV2+3-IIb* Figure Table |
8C(0+) AV18+UX Figure Table |
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8Li(2+) AV18+UX Figure Table |
8Li(2+) NV2+3-Ia Figure Table |
8Li(2+) NV2+3-Ia* Figure Table |
8Li(2+) NV2+3-Ib* Figure Table |
8Li(2+) NV2+3-IIa* Figure Table |
8Li(2+) NV2+3-IIb* Figure Table |
8B(2+) AV18+UX Figure Table |
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8Be(0+) AV18+UX Figure Table |
8Be(0+) NV2+3-Ia Figure Table |
8Be(0+) NV2+3-Ia* Figure Table |
8Be(0+) NV2+3-IIb* Figure Table |
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9Li(3/2-) AV18+UX Figure Table |
9Li(3/2-) NV2+3-Ia Figure Table |
9Li(3/2-) NV2+3-Ia* Figure Table |
9Li(3/2-) NV2+3-IIb* Figure Table |
9C(3/2-) AV18+UX Figure Table |
9C(3/2-) NV2+3-Ia Figure Table |
9C(3/2-) NV2+3-Ia* Figure Table |
9C(3/2-) NV2+3-IIb* Figure Table |
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9Be(3/2-) AV18+UX Figure Table |
9Be(3/2-) NV2+3-Ia Figure Table |
9Be(3/2-) NV2+3-Ia* Figure Table |
9Be(3/2-) NV2+3-Ib* Figure Table |
9Be(3/2-) NV2+3-IIa* Figure Table |
9Be(3/2-) NV2+3-IIb* Figure Table |
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| 10He(0+) AV18+UX Figure Table |
10Be(0+) AV18+UX Figure Table |
10Be(0+) NV2+3-Ia Figure Table |
10Be(0+) NV2+3-Ia* Figure Table |
10Be(0+) NV2+3-IIb* Figure Table |
10C(0+) AV18+UX Figure Table |
10C(0+) NV2+3-Ia Figure Table |
10C(0+) NV2+3-Ia* Figure Table |
10C(0+) NV2+3-IIb* Figure Table |
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10B(3+) AV18+UX Figure Table |
10B(3+) NV2+3-Ia Figure Table |
10B(3+) NV2+3-Ia* Figure Table |
10B(3+) NV2+3-IIb* Figure Table |
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11Li(3/2-) AV18+UX Figure Table |
11B(3/2-) AV18+UX Figure Table |
11B(3/2-) NV2+3-Ia Figure Table |
11B(3/2-) NV2+3-Ia* Figure Table |
11B(3/2-) NV2+3-IIb* Figure Table |
11C(3/2-) AV18+UX Figure Table |
11C(3/2-) NV2+3-Ia Figure Table |
11C(3/2-) NV2+3-Ia* Figure Table |
11C(3/2-) NV2+3-IIb* Figure Table |
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12Be(0+) AV18+UX Figure Table |
12Be(0+) NV2+3-Ia* Figure Table |
12Be(0+) NV2+3-IIb* Figure Table |
12B(1+) AV18+UX Figure Table |
12B(1+) NV2+3-Ia Figure 1 Table |
12C(0+) AV18+UX Figure Table |
12C(0+) NV2+3-Ia Figure Table |
12C(0+) NV2+3-Ia* Figure Table |
12C(0+) NV2+3-IIb* Figure Table |
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16O(0+) CVMC AV18 Figure Table |
16O(0+) CVMC AV18+UIX Figure Table |
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40Ca(0+) CVMC AV18 Figure Table |
40Ca(0+) CVMC AV18+UIX Figure Table |
Robert B. Wiringa
Last update October 24, 2024