ENTRY D4405 20200309 D125D440500000001 SUBENT D4405001 20200309 D125D440500100001 BIB 9 29 D440500100002 TITLE Resonance strengths in the 14N(p,g)15O astrophysical D440500100003 key reaction measured with activation D440500100004 AUTHOR (Gy.Gyurky, Z.Halasz, G.G.Kiss, T.Szucs, A.Csik, D440500100005 Zs.Torok, R.Huszank, M.G.Kohan, L.Wagner, Zs.Fulop) D440500100006 INSTITUTE (3HUNDEB,2GERZFK,2GERDRE) D440500100007 (2SWDSWD) Lulea University of Technology, Lulea D440500100008 REFERENCE (J,PR/C,100,015805,2019) D440500100009 #doi:10.1103/PhysRevC.100.015805 D440500100010 FACILITY (VDGT,3HUNDEB) D440500100011 SAMPLE Titanium nitride (TiN) 300 nm thick layer prepared by D440500100012 reactive sputtering onto 0.5-mm thick Ta backing D440500100013 DETECTOR (HPGE) 100% efficiency. D440500100014 Detector efficiency was calibrated for large volume D440500100015 sample. D440500100016 METHOD The beam energies of 300 and 1070 keV (middle of the D440500100017 yield curve) were chosen for the 278 and 1058 keV D440500100018 resonances to obtain the maximum yield. D440500100019 Energy loss was calculated by the SRIM code. D440500100020 (ACTIV,EXTB,EDEG,GSPEC) D440500100021 Cyclic activation method : D440500100022 - 5 min irradiation with average intensity of 5 uA, D440500100023 - 10 or 20 min measurement, D440500100024 repeated up to 30 cycles in a single irradiation D440500100025 campaign. D440500100026 (BCINT) Irradiation were done in a Faraday-cup like D440500100027 targetholder to measure the charge carried by the D440500100028 beam to the target. D440500100029 HISTORY (20200206C) ST D440500100030 (20200309U) On. Finalized. D440500100031 ENDBIB 29 0 D440500100032 NOCOMMON 0 0 D440500100033 ENDSUBENT 32 0 D440500199999 SUBENT D4405002 20200309 D125D440500200001 BIB 4 11 D440500200002 REACTION (7-N-14(P,G),,WID/STR) D440500200003 DECAY-DATA (8-O-15,122.24SEC,AR,511.) D440500200004 ERR-ANALYS (ERR-T) Square root of the quadratic summation of the D440500200005 independently contributing parameters D440500200006 (ERR-1) detector efficiency (4.0%) D440500200007 (ERR-2) effective stoppin power (2.8%) D440500200008 (ERR-3) beam current (3.0%) D440500200009 (ERR-4) target thickness correction (0.1%) D440500200010 (ERR-5) non resonant yield subtraction (0.3%) D440500200011 (ERR-S) Counting statistics (1.0%) D440500200012 STATUS (TABLE) Data are from text of J,PR/C,100,015805,2019 D440500200013 ENDBIB 11 0 D440500200014 COMMON 3 3 D440500200015 ERR-1 ERR-2 ERR-3 D440500200016 PER-CENT PER-CENT PER-CENT D440500200017 4.0 2.8 3.0 D440500200018 ENDCOMMON 3 0 D440500200019 DATA 6 2 D440500200020 EN-RES DATA ERR-T ERR-4 ERR-5 ERR-S D440500200021 KEV MILLI-EV MILLI-EV PER-CENT PER-CENT PER-CENT D440500200022 278. 13.4 0.8 0.1 0.3 1.0 D440500200023 1058. 442. 27. 1.7 0.7 0.6 D440500200024 ENDDATA 4 0 D440500200025 ENDSUBENT 24 0 D440500299999 ENDENTRY 2 0 D440599999999