ENTRY C1681 20090519 C091C168100000001 SUBENT C1681001 20090519 C091C168100100001 BIB 10 33 C168100100002 TITLE Astrophysical S factor for the radiative capture C168100100003 12N(p,g)13-O determined from the 14N(12N,13-O)13C C168100100004 proton transfer reaction C168100100005 AUTHOR (A.Banu,T.Al-Abdullah,C.Fu,C.A.Gagliardi,M.McCleskey, C168100100006 A.M.Mukhamedzhanov,G.Tabacaru,L.Trache,R.E.Tribble, C168100100007 Y.Zhai,F.Carstoiu,V.Burjan,V.Kroha) C168100100008 INSTITUTE (1USATAM,3RUMBUC,3CZRUJF) C168100100009 REFERENCE (J,PR/C,79,025805,2009) C168100100010 FACILITY (CYCLO,1USATAM) Experiment performed at K500 C168100100011 superconducting cyclotron, which delivered primary C168100100012 beam of 12C. Secondary beam 12N was produced by (p,n) C168100100013 reaction on cryogenic H2 gas cell, operated at 2.2 atm.C168100100014 The resulting 12N beam was separated by the Momentum C168100100015 Achromat Recoil Spectrometer (MARS) and had a purity C168100100016 of around 99.8% and a rate of around 2E+5 particles/s. C168100100017 SAMPLE Composite melamine target (C3H6N6) located at the C168100100018 final focal plane of MARS with of a thickness of C168100100019 1.58+-0.05 mg/cm2. C168100100020 METHOD (EDE) C168100100021 DETECTOR (TELES,SI,SI) Four modular dE-E telescopes C168100100022 5 x 5 cm2 in area, placed 182 mm downstream C168100100023 from the melamine target.The front dE detectors were C168100100024 16-strip position-sensitive silicon detectors, C168100100025 110 mu-m thick, telescopes 1 and 2, and 65 mu-m thick, C168100100026 telescopes 3 and 4). The back E-residual detectors C168100100027 had the same area coverage and were all 500 mu-m C168100100028 thick. C168100100029 HISTORY (20090409C) Compiled by S.H. C168100100030 ANALYSIS The astrophysical S factor and the reaction rate for C168100100031 the radiative proton capture 12N(p,g)13-O was C168100100032 obtained from the study of the 14N(12N,13-O)13C C168100100033 peripheral transfer reaction using the asymptotic C168100100034 normalization coefficient method. C168100100035 ENDBIB 33 0 C168100100036 NOCOMMON 0 0 C168100100037 ENDSUBENT 36 0 C168100199999 SUBENT C1681002 20090519 C091C168100200001 BIB 4 4 C168100200002 REACTION (7-N-12(P,G)8-O-13,,SGV,,MXW,DERIV) C168100200003 STATUS (TABLE) Data taken from Tab. 4 of the reference C168100200004 ANALYSIS (ANC) C168100200005 INC-SPECT Maxwellian spectrum C168100200006 ENDBIB 4 0 C168100200007 NOCOMMON 0 0 C168100200008 DATA 2 30 C168100200009 KT DATA C168100200010 K9 CM3/S/MOL C168100200011 0.1 2.69E-6 C168100200012 0.2 1.43E-3 C168100200013 0.3 2.93E-2 C168100200014 0.4 1.95E-1 C168100200015 0.5 7.53E-1 C168100200016 0.6 2.13E+0 C168100200017 0.7 4.92E+0 C168100200018 0.8 1.00E+1 C168100200019 0.9 1.85E+1 C168100200020 1.0 3.19E+1 C168100200021 1.1 5.22E+1 C168100200022 1.2 8.11E+1 C168100200023 1.3 1.21E+2 C168100200024 1.4 1.74E+2 C168100200025 1.5 2.40E+2 C168100200026 1.6 3.23E+2 C168100200027 1.7 4.21E+2 C168100200028 1.8 5.36E+2 C168100200029 1.9 6.67E+2 C168100200030 2.0 8.14E+2 C168100200031 2.1 9.75E+2 C168100200032 2.2 1.15E+3 C168100200033 2.3 1.34E+3 C168100200034 2.4 1.53E+3 C168100200035 2.5 1.74E+3 C168100200036 2.6 1.95E+3 C168100200037 2.7 2.17E+3 C168100200038 2.8 2.40E+3 C168100200039 2.9 2.62E+3 C168100200040 3.0 2.85E+3 C168100200041 ENDDATA 32 0 C168100200042 ENDSUBENT 41 0 C168100299999 ENDENTRY 2 0 C168199999999