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Manuscript Title: QRAP: a numerical code for projected (Q)uasi-particle (RA)ndom (P)hase approximation
Authors: A.R. Samana, F. Krmpotic, C.A. Bertulani
Program title: QRAP (Quasiparticle RAndom Phase approximation)
Catalogue identifier: AEFZ_v1_0
Distribution format: tar.gz
Journal reference: Comput. Phys. Commun. 181(2010)1123
Programming language: Fortran-77.
Computer: The code has been created on an PC, but also runs on UNIX or LINUX machines.
Operating system: WINDOWS or UNIX.
RAM: 16 Mbytes of RAM memory and 2 MB of hard disk space
Keywords: QRPA, Projected QRPA, semileptonic processes.
PACS: 21.60.Jz, 25.30.Pt, 26.30.Jk.
Classification: 17.8.

Nature of problem:
The program calculates neutrino- and antineutrino-nucleus cross sections as a function of the incident neutrino energy, and muon capture rates, using the QRPA or PQRPA as nuclear structure models.

Solution method:
The QRPA, or PQRPA, equations are solved in a self-consistent way for even-even nuclei. The nuclear matrix elements for the neutrino-nucleus interaction are treated as the beta inverse reaction of odd-odd nuclei as function of the transfer momentum.

Running time:
approximately 5 min on a 3 GHz processor for Data set 1.