Double charge exchange reactions and neutrinoless double beta decay

WORKSHOP ON CALCULATION OF DOUBLE-BETA-DECAY MATRIX ELEMENTS (MEDEX’19) Pub Date : 2019-10-25 DOI:10.1063/1.5130983

E. Santopinto, J. Ferretti, R. Vsevolodovna, H. García-Tecocoatzi

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Abstract

Using the eikonal approximation and small momentum transfer approximation a simple model for differential cross section for double charge exchange has been derived and under those hypothesis a factorization of the reaction part and the nuclear part holds. Moreover, the explicit form for a double charge exchange effective potential has been derived in the closure approximation and also and explicit expression for the nuclear matrix elements that are of the form of Double Gamow-Teller and Double Fermi in the microscopic IBM-2.Using the eikonal approximation and small momentum transfer approximation a simple model for differential cross section for double charge exchange has been derived and under those hypothesis a factorization of the reaction part and the nuclear part holds. Moreover, the explicit form for a double charge exchange effective potential has been derived in the closure approximation and also and explicit expression for the nuclear matrix elements that are of the form of Double Gamow-Teller and Double Fermi in the microscopic IBM-2.

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双电荷交换反应和中微子双衰变

利用斜角近似和小动量传递近似导出了双电荷交换微分截面的简单模型，在此假设下，反应部分和核部分的因式分解是成立的。此外，在闭包近似中导出了双电荷交换有效势的显式形式，并在IBM-2显微镜中导出了双伽莫夫-泰勒和双费米形式的核矩阵元的显式表达式。利用斜角近似和小动量传递近似导出了双电荷交换微分截面的简单模型，在此假设下，反应部分和核部分的因式分解是成立的。此外，在闭包近似中导出了双电荷交换有效势的显式形式，并在IBM-2显微镜中导出了双伽莫夫-泰勒和双费米形式的核矩阵元的显式表达式。

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