https://doi.org/10.1140/epja/i2016-16275-x
Regular Article - Theoretical Physics
Relation between (e, e′) sum rules in 6, 7Li and 4He nuclei: Experiment and cluster model
1
National Research Center “Kurchatov Institute”, 123182, Moscow, Russia
2
National Research Nuclear University MEPhI (Moscow Engineering Physics Institute), Moscow, Russia
3
National Science Center “Kharkov Institute of Physics and Technology”, 61108, Kharkov, Ukraine
* e-mail: v.efros@mererand.com
Received:
2
May
2016
Accepted:
21
July
2016
Published online:
12
September
2016
The sums over (e, e′) spectra of 6Li and 7Li nuclei which correspond to the longitudinal sum rule are studied. It is suggested that due to the cluster structure of the lithium isotopes these sums may approximately be expressed in terms of such a sum pertaining to the 
-particle. Calculation of these sums is performed in the framework of cluster models with antisymmetrization done with respect to all the nucleons. At momentum transfers higher than 0.8 fm-1 the relations expressing the A = 6 or 7 sum in terms of the A = 4 sum prove to be valid with rather high accuracy. In the region of momentum transfers around 1 fm-1 the longitudinal correlation functions of 6Li and 7Li nuclei are found to be close to that of the -particle. Basing on this, the difference between the q values at which the high-q limit of the inelastic sum rule is reached in the 6, 7Li cases and the 4He case is explained. The experimental longitudinal sums in the range between 0.450 and 1.625 fm-1 are employed to perform comparison with the theoretical sum rule calculated in the framework of cluster models. Out of the experimental sums, those in the range between 0.750 and 1.000 fm-1 in the 6Li case and between 0.750 and 1.125 fm-1 in the 7Li case are obtained in the present work. In the 6 Li case a complete agreement between experiment and the calculated sum rule is found while in the 7Li case an agreement only at a qualitative level is observed.
© SIF, Springer-Verlag Berlin Heidelberg, 2016
