ENTRY O1897 20160720 O058O189700000001 SUBENT O1897001 20160720 O058O189700100001 BIB 10 33 O189700100002 TITLE Experiments for the astrophysical p-process with O189700100003 the in-beam method O189700100004 AUTHOR (A.Sauerwein,M.Elvers,J.Endres,J.Hasper,A.Hennig, O189700100005 L.Netterdon, A.Zilges, M.Buessing) O189700100006 REFERENCE (S,AIP-1377,423,2011) prelim. data O189700100007 (J,JP/CS,202,012005,2010) prelim. data O189700100008 (C,2010HEIDLB,,(244),2010) prelim. data O189700100009 INSTITUTE (2GERKLN) O189700100010 FACILITY (VDGT,2GERKLN) TANDEM accelerator of the University O189700100011 of Cologne. O189700100012 SAMPLE Metallic isotopically-enriched molybdenum targets of O189700100013 about 400 mug/cm**2 thickness were used. O189700100014 METHOD (BCINT) The beam current was determined by the charge O189700100015 deposited in a Faraday cup behind the target O189700100016 DETECTOR (HPGE) 13 HPGe detectors at the Cologne gamma-ray O189700100017 detector array HORUS. Each detector features a relativeO189700100018 efficiency between 40% and 80% compared to O189700100019 a 7.62*7.62 cm**2 NaI detector. The detectors were O189700100020 mounted as close as possible around the target chamber,O189700100021 so that an excellent absolute photopeak efficiency of O189700100022 almost 5% for photons of energy E(g)= 1332.5 keV could O189700100023 be provided. O189700100024 (SI) Silicon detector was placed at 135. degr. backwardO189700100025 angle to monitor the stability of the target thickness O189700100026 during the experiment by measuring the Rutherford- O189700100027 scattered protons from the target O189700100028 STATUS The letter was sent to Dr.J.Hasper 01.08.2011 O189700100029 E-mail was sent to Prof. J.Endres, 20.07.2016 O189700100030 HISTORY (20100118C) SB O189700100031 (20160720A) SD: Refs AIP-1377 and 2010HEIDLB were addedO189700100032 Title and authors list was update following AIP-1377. O189700100033 Energy units were changed in Subent 002. Data in O189700100034 Subent 002 update. O189700100035 ENDBIB 33 0 O189700100036 NOCOMMON 0 0 O189700100037 ENDSUBENT 36 0 O189700199999 SUBENT O1897002 20160720 O058O189700200001 BIB 6 14 O189700200002 REACTION 1(42-MO-92(P,G)43-TC-93-G,,SIG) O189700200003 2(42-MO-92(P,G)43-TC-93-G,(M),SIG) O189700200004 METHOD 1(GSPEC) in-beam technique using the gamma-ray detector O189700200005 2(ACTIV) For comparison, the cross section has also O189700200006 been determined from the beta-decay of the reaction O189700200007 product 93Tc which has a half-life of 2.7 h. O189700200008 DECAY-DATA (43-TC-93-G,2.7HR) O189700200009 ERR-ANALYS (DATA-ERR) No information on sources of uncertainty O189700200010 (EN-ERR) No information on sources of uncertainty O189700200011 STATUS (CURVE) fig.1 of AIP-1377,423,2011 O189700200012 HISTORY (20160720A) SD: Energy units were changed (MEV -> KEV).O189700200013 Data were re-digitized with better resolution. O189700200014 REACTION code changed using Multiple Reaction FormalismO189700200015 FLAG deleted. SF5=(M) added to REACTION (2) code. O189700200016 ENDBIB 14 0 O189700200017 COMMON 3 3 O189700200018 EN-ERR EN-ERR-DIG ERR-DIG O189700200019 KEV KEV PER-CENT O189700200020 24.5 1. 0.3 O189700200021 ENDCOMMON 3 0 O189700200022 DATA 5 8 O189700200023 EN DATA 1DATA-ERR 1DATA 2DATA-ERR 2 O189700200024 KEV MICRO-B MICRO-B MICRO-B MICRO-B O189700200025 2424.6 13.79 1.74 15.91 1.59 O189700200026 2572.0 8.55 1.14 10.10 1.93 O189700200027 2719.7 13.13 1.75 O189700200028 2869.7 14.43 1.72 18.47 2.01 O189700200029 2967.5 21.64 2.74 O189700200030 3117.6 40.85 5.16 O189700200031 3265.3 51.00 6.09 72.36 7.88 O189700200032 3465.2 72.29 8.13 89.60 8.15 O189700200033 ENDDATA 10 0 O189700200034 ENDSUBENT 33 0 O189700299999 ENDENTRY 2 0 O189799999999