Center of Mass Motion of Short-Range Correlated Nucleon Pairs Studied Via the A(e,e^{'}pp) Reaction

Overview

Journal Phys Rev Lett

Publisher American Physical Society

Specialty Biophysics

Date 2018 Sep 20

PMID 30230869

Citations 1

Authors

E O Cohen

O Hen

E Piasetzky

L B Weinstein

A Schmidt

H Hakobyan

S Adhikari

Z Akbar

M J Amaryan

H Avakian

J Ball

L Barion

M Battaglieri

A Beck

I Bedlinskiy

A S Biselli

S Boiarinov

W Briscoe

V D Burkert

F Cao

D S Carman

A Celentano

G Charles

Pierre Chatagnon

T Chetry

G Ciullo

Brandon A Clary

M Contalbrigo

V Crede

R Cruz Torres

A DAngelo

N Dashyan

R De Vita

E De Sanctis

M Defurne

A Deur

S Diehl

C Djalali

M Duer

R Dupre

H Egiyan

Mathieu Ehrhart

A El Alaoui

L El Fassi

P Eugenio

G Fedotov

R Fersch

A Filippi

Y Ghandilyan

K L Giovanetti

F X Girod

E Golovatch

R W Gothe

K A Griffioen

K Hafidi

N Harrison

F Hauenstein

D Heddle

K Hicks

M Holtrop

D G Ireland

B S Ishkhanov

E L Isupov

D Jenkins

H S Jo

S Johnston

M L Kabir

D Keller

G Khachatryan

M Khachatryan

M Khandaker

A Kim

W Kim

A Klein

F J Klein

I Korover

V Kubarovsky

S E Kuhn

L Lanza

P Lenisa

K Livingston

I J D MacGregor

D Marchand

B McKinnon

S Mey-Tal Beck

C A Meyer

M Mirazita

V Mokeev

R A Montgomery

A Movsisyan

C Munoz Camacho

B Mustapha

P Nadel-Turonski

S Niccolai

G Niculescu

M Osipenko

A I Ostrovidov

M Paolone

R Paremuzyan

E Pasyuk

O Pogorelko

J W Price

Y Prok

D Protopopescu

M Ripani

D Riser

A Rizzo

G Rosner

P Rossi

F Sabatie

B A Schmookler

R A Schumacher

Y G Sharabian

D Sokhan

N Sparveris

S Stepanyan

S Strauch

M Taiuti

J A Tan

M Ungaro

H Voskanyan

E Voutier

R Wang

D P Watts

X Wei

M H Wood

N Zachariou

J Zhang

X Zheng

Z W Zhao

Affiliations

Soon will be listed here.

Abstract

Short-range correlated (SRC) nucleon pairs are a vital part of the nucleus, accounting for almost all nucleons with momentum greater than the Fermi momentum (k_{F}). A fundamental characteristic of SRC pairs is having large relative momenta as compared to k_{F}, and smaller center of mass (c.m.) which indicates a small separation distance between the nucleons in the pair. Determining the c.m. momentum distribution of SRC pairs is essential for understanding their formation process. We report here on the extraction of the c.m. motion of proton-proton (pp) SRC pairs in carbon and, for the first time in heavier and ansymetric nuclei: aluminum, iron, and lead, from measurements of the A(e,e^{'}pp) reaction. We find that the pair c.m. motion for these nuclei can be described by a three-dimensional Gaussian with a narrow width ranging from 140 to 170 MeV/c, approximately consistent with the sum of two mean-field nucleon momenta. Comparison with calculations appears to show that the SRC pairs are formed from mean-field nucleons in specific quantum states.

Citing Articles

Probing the core of the strong nuclear interaction.

Schmidt A, Pybus J, Weiss R, Segarra E, Hrnjic A, Denniston A Nature. 2020; 578(7796):540-544.

PMID: 32103193 DOI: 10.1038/s41586-020-2021-6.