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We study double charge-exchange phonon states in neutron-rich nuclei, in particular the double isobaric analog states and the double Gamow-Teller excitations, induced by the double isospin operator -i,j=1At-(i)t-(j) and spin-isospin operator -i,j=1Aσ(i)t-(i)σ(j)t-(j), respectively. We employ quartic commutator relations to evaluate the average energies EDIAS-2EIAS and EDGTR-EDIAS-2(EGTR-EIAS), and conventional double commutator relations to evaluate the average energies of EGTR-EIAS and EIAS. We have found that the corrections from quartic commutators follow the approximate laws: EDIAS-2EIAS≈32A-1/3MeV and EDGTR-EDIAS-2(EGTR-EIAS)≈16A-1MeV. While the former is dominated by direct Coulomb effects because Coulomb exchange cancels out to some extent with isospin symmetry breaking contributions originated from the nuclear strong force, the latter is sensitive to the difference in strength between the spin and spin-isospin channels of the strong interaction.

Double charge-exchange phonon states / X. Roca-Maza, H. Sagawa, G. Colo. - In: PHYSICAL REVIEW C. - ISSN 2469-9985. - 101:1(2020 Jan 23). [10.1103/PhysRevC.101.014320]

Double charge-exchange phonon states

X. Roca-Maza;Sagawa H.;G. Colo

2020

Abstract

We study double charge-exchange phonon states in neutron-rich nuclei, in particular the double isobaric analog states and the double Gamow-Teller excitations, induced by the double isospin operator -i,j=1At-(i)t-(j) and spin-isospin operator -i,j=1Aσ(i)t-(i)σ(j)t-(j), respectively. We employ quartic commutator relations to evaluate the average energies EDIAS-2EIAS and EDGTR-EDIAS-2(EGTR-EIAS), and conventional double commutator relations to evaluate the average energies of EGTR-EIAS and EIAS. We have found that the corrections from quartic commutators follow the approximate laws: EDIAS-2EIAS≈32A-1/3MeV and EDGTR-EDIAS-2(EGTR-EIAS)≈16A-1MeV. While the former is dominated by direct Coulomb effects because Coulomb exchange cancels out to some extent with isospin symmetry breaking contributions originated from the nuclear strong force, the latter is sensitive to the difference in strength between the spin and spin-isospin channels of the strong interaction.

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	Settori scientifico-disciplinari dell'articolo
	
			Settore FIS/04 - Fisica Nucleare e Subnucleare
		
	Titolo del progetto
	
	Titolo Progetto
	
									European Nuclear Science and Application Research 2
								
	Acronimo
	
									ENSAR2
								
	Nome finanziatore
	
										EUROPEAN COMMISSION
									
	Finanziamento
	
									H2020
								
	N. Contratto
	
									654002
								
	Data di pubblicazione
	
			23-gen-2020
		
	Rivista in ANCE
	
			PHYSICAL REVIEW C
		
	DOI
	
			https://dx.doi.org/10.1103/PhysRevC.101.014320
		
	Tipologia
	
			Article (author)
		
	Appare nelle tipologie:
	
			01 - Articolo su periodico

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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2434/729146

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