Isospin diffusion measurement from the direct detection of a quasiprojectile remnant

Camaiani, A.; Casini, G.; Piantelli, S.; Ono, A.; Bonnet, E.; Alba, R.; Barlini, S.; Borderie, B.; Bougault, R.; Ciampi, C.; Chbihi, A.; Cicerchia, M.; Cinausero, M.; Duenas, J. A.; Dell&apos;Aquila, D.; Fable, Q.; Fabris, D.; Frosin, C.; Frankland, J. D.; Gramegna, F.; Gruyer, D.; Hahn, K., I; Henri, M.; Hong, B.; Kim, S.; Kordyasz, A.; Kweon, M. J.; Lee, H. J.; Lemarie, J.; LeNeindre, N.; Lombardo, I; Lopez, O.; Marchi, T.; Nam, S. H.; Ottanelli, P.; Parlog, M.; Pasquali, G.; Poggi, G.; Quicray, J.; Stefanini, A. A.; Upadhyaya, S.; Valdre, S.; Vient, E.

doi:10.1103/PhysRevC.103.014605

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Isospin diffusion measurement from the direct detection of a quasiprojectile remnant

Authors: Camaiani, A.; Casini, G.; Piantelli, S.; Ono, A.; Bonnet, E.; Alba, R.; Barlini, S.; Borderie, B.; Bougault, R.; Ciampi, C.; Chbihi, A.; Cicerchia, M.; Cinausero, M.; Duenas, J. A.; Dell'Aquila, D.; Fable, Q.; Fabris, D.; Frosin, C.; Frankland, J. D.; Gramegna, F.; Gruyer, D.; Hahn, K., I; Henri, M.; Hong, B.; Kim, S.; Kordyasz, A.; Kweon, M. J.; Lee, H. J.; Lemarie, J.; LeNeindre, N.; Lombardo, I; Lopez, O.; Marchi, T.; Nam, S. H.; Ottanelli, P.; Parlog, M.; Pasquali, G.; Poggi, G.; Quicray, J.; Stefanini, A. A.; Upadhyaya, S.; Valdre, S.; Vient, E.

Issue Date: 8-Jan-2021

Publisher: AMER PHYSICAL SOC

Citation: PHYSICAL REVIEW C, v.103, no.1

Indexed: SCIE
SCOPUS

Journal Title: PHYSICAL REVIEW C

Volume: 103

Number: 1

URI: https://scholar.korea.ac.kr/handle/2021.sw.korea/50131

DOI: 10.1103/PhysRevC.103.014605

ISSN: 2469-9985

Abstract: The neutron-proton (n-p) equilibration process in Ca-48+Ca-40 at 35 MeV/nucleon bombarding energy is experimentally estimated by means of the isospin transport ratio. Experimental data are collected with a subset of the FAZIA telescope array, which permits us to determine the Z and N of detected fragments. For the first time, the quasiprojectile (QP) evaporative channel is compared with the QP breakup one in a homogeneous and consistent way, pointing to comparable n-p equilibration, which suggests a close interaction time between projectile and target independently of the exit channel. Moreover, in the QP evaporative channel n-p equilibration is compared with the prediction of the antisymmetrized molecular dynamics model coupled with the GEMINI statistical model as an afterburner, showing a higher probability of proton and neutron transfers in the simulation with respect to the experimental data.

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