Recently, precision laser spectroscopy on 6He atoms determined accurately the
isotope shift between 4He and 6He and, consequently, the charge radius of 6He.
A similar experiment for 8He is under way. We have performed large-scale ab
initio calculations for 4,6,8He isotopes using high-precision nucleon-nucleon
(NN) interactions within the no-core shell model (NCSM) approach. With the
CD-Bonn 2000 NN potential we found point-proton root-mean-square (rms) radii of
4He and 6He 1.45(1) fm and 1.89(4), respectively, in agreement with experiment
and predict the 8He point proton rms radius to be 1.88(6) fm. At the same time,
our calculations show that the recently developed nonlocal INOY NN potential
gives binding energies closer to experiment, but underestimates the charge
radii.Comment: 5 pages, 9 figure

E. Caurier

G. W. F. Drake

P. Mueller

P. Navrátil

English

arXiv

Crossref

Proton radii of
                    
                      
                        He

Recently, precision laser spectroscopy on {sup 6}He atoms determined accurately the isotope shift between {sup 4}He and {sup 6}He and, consequently, the charge radius of {sup 6}He. A similar experiment for {sup 8}He is under way. We have performed large-scale ab initio calculations for {sup 4,6,8}He isotopes using high-precision nucleon-nucleon (NN) interactions within the no-core shell model (NCSM) approach. With the CD-Bonn 2000 NN potential we found point-proton root-mean-square (rms) radii of {sup 4}He and {sup 6}He 1.45(1) fm and 1.89(4), respectively, in agreement with experiment and predict the {sup 8}He point proton rms radius to be 1.88(6) fm. At the same time, our calculations show that the recently developed nonlocal INOY NN potential gives binding energies closer to experiment, but underestimates the charge radii

Caurier, E

Navratil, P

UNT (University of North Texas) Digital Library

Proton Radii of 4,6,8He Isotopes from High-Precision Nucleon-Nucleon Interactions

Recently, precision laser spectroscopy on $^(6)He$ atoms determined accurately the isotope shift between $^(4)He$ and $^(6)He$ and, consequently, the charge radius of $^(6)He$. A similar experiment for $^(8)He$ is under way. We have performed large-scale ab initio calculations for $^(4,6,8)He$ isotopes using high-precision nucleon-nucleon (NN) interactions within the no-core shell model (NCSM) approach. With the CD-Bonn 2000 NN potential we found point-proton root-mean-square (rms) radii of $^(4)He$ and $^(6)He$ 1.45(1) fm and 1.89(4), respectively, in agreement with experiment and predict the $^(8)He$ point-proton rms radius to be 1.88(6) fm. At the same time, our calculations show that the recently developed nonlocal INOY NN potential gives binding energies closer to experiment, but underestimates the charge radii

Caurier, E.

Navratil, P.

HAL-IN2P3

Proton radii of $^(4,6,8)He$ isotopes from high-precision nucleon-nucleon interactions

HAL: Hyper Article en Ligne

Proton radii of 4,6,8He isotopes from high-precision nucleon-nucleon
  interactions

Proton radii of 4,6,8He isotopes from high-precision nucleon-nucleon interactions

Abstract

Similar works

Full text

Available Versions

Crossref

UNT (University of North Texas) Digital Library

HAL-IN2P3

HAL: Hyper Article en Ligne