CALABRESE, S., CAPPUZZELLO, F., CARBONE, D., CAVALLARO, M, AGODI, C., ACOSTA, L., BONANNO, D., BONGIOVANNI, D., BORELLO-LEWIN, T., BOZTOSUN, I., CALVO, D., CHÀVEZ LOMELI, E. R., DESHMUKH, N., DE FARIA, P. N., FINOCCHIARO, P., FISICHELLA, M., FOTI, A., GALLO, G., HACISALIHOGLU, A., IAZZI, F., INTROZZI, R., LANZALONE, G., LINARES, R., LONGHITANO, F., LO PRESTI, D., MEDINA, N., MUOIO, A., OLIVEIRA, J. R. B., PAKOU, A., PANDOLA, L., PINNA, F., REITO, S., RUSSO, G., SANTAGATI, G., SGOUROS, O., SOLAKCI, S. O., SOUKERAS, V., SOULIOTIS, G., SPATAFORA, A., TORRESI, D., TUDISCO, S., YILDIRIM, A., ZAGATTO, V. A. B.

ACTA PHYSICA POLONICA B, v. 49, p. 275-280, 2018

01/03/2018

Abstract

The NUMEN Collaboration proposes an original experimental method to get information on the nuclear matrix elements involved in the neutrinoless double beta decay, exploring its connection with double charge-exchange nuclear reactions using heavy ions. The first results for the data reduction of the 116Cd(20Ne,20O)116Sn experiment at 15 A MeV are presented.

10.5506/APhysPolB.49.275