ENTRY C2808 20220821 C280800000001 SUBENT C2808001 20220821 20231011 C280800100001 BIB 8 29 C280800100002 TITLE Direct measurement of the low-energy resonances in C280800100003 22Ne(a,g)26Mg reaction C280800100004 AUTHOR (Shahina,J.Gorres,D.Robertson,M.Couder,O.Gomez,A.Gula, C280800100005 M.Hanhardt,T.Kadlecek,R.Kelmar,P.Scholz,A.Simon, C280800100006 E.Stech,F.Strieder,M.Wiescher) C280800100007 INSTITUTE (1USANOT,1USASRF) C280800100008 (1USAUSA) South Dakota School of Mines and Technology, C280800100009 Rapid City, South Dakota C280800100010 REFERENCE (J,PR/C,106,025805,2022) C280800100011 FACILITY (VDG,1USASRF) Experiment performed using 1-MV JN C280800100012 positive ion accelerator at CASPAR (Compact AcceleratorC280800100013 System for Performing Astrophysical Research), locatedC280800100014 on the 4850-ft level of the Sanford Underground C280800100015 Research Facility in Lead, South Dakota. C280800100016 SAMPLE (10-NE-22,ENR=0.99) The 22Ne targets were produced by C280800100017 implantation of enriched Ne onto think tantalum C280800100018 backing with dimensions of 3.8 cm x 3.8 cm. The C280800100019 implantation profile of the 22Ne targets was C280800100020 investigated using the 1278-keV resonance in the C280800100021 22Ne(p,g) 23Na reaction C280800100022 DETECTOR (NAICR) Gamma rays were detected using HECTOR array, C280800100023 consisting of 16 NaI(Tl) crystals with two phototubes C280800100024 attached to each crystal. The crystals are arranged in C280800100025 a frame to form a cube 16 x 16 x 16 in. in dimension. C280800100026 The center of the detector array consists of a 60-mm C280800100027 borehole that allows the target to be placed at the C280800100028 center giving a 4Pi total coverage for the detection C280800100029 of gamma rays. C280800100030 HISTORY (20220821C) Compiled by S.H. C280800100031 ENDBIB 29 0 C280800100032 NOCOMMON 0 0 C280800100033 ENDSUBENT 32 0 C280800199999 SUBENT C2808002 20220821 20231011 C280800200001 BIB 4 7 C280800200002 REACTION (10-NE-22(A,G),,WID/STR) C280800200003 MONITOR (10-NE-22(P,G),,WID/STR) resonances at 479 and 851 keV C280800200004 ERR-ANALYS (ERR-1) Uncertainty in alpha stopping power in Ta C280800200005 (DATA-ERR) Origin of uncertainties not described C280800200006 STATUS (TABLE,,Shahina+,J,PR/C,106,025805,2022) C280800200007 Data taken from tab.1 and text p.6 of C280800200008 the reference C280800200009 ENDBIB 7 0 C280800200010 NOCOMMON 0 0 C280800200011 DATA 5 2 C280800200012 EN-RES DATA DATA-ERR DATA-MAX ERR-1 C280800200013 KEV MICRO-EV MICRO-EV MICRO-EV PER-CENT C280800200014 650. 0.11 C280800200015 830. 35. 4. 5. C280800200016 ENDDATA 4 0 C280800200017 ENDSUBENT 16 0 C280800299999 SUBENT C2808003 20220821 20231011 C280800300001 BIB 4 5 C280800300002 REACTION (10-NE-22(P,G),,WID/STR) C280800300003 MONITOR (10-NE-22(P,G),,WID/STR) resonance at 479 keV C280800300004 ERR-ANALYS (DATA-ERR) Origin of uncertainties not described C280800300005 STATUS (TABLE,,Shahina+,J,PR/C,106,025805,2022) C280800300006 Data taken from text p.6 of the reference C280800300007 ENDBIB 5 0 C280800300008 COMMON 1 3 C280800300009 EN-RES-NRM C280800300010 KEV C280800300011 479. C280800300012 ENDCOMMON 3 0 C280800300013 DATA 5 1 C280800300014 EN-RES DATA DATA-ERR MONIT MONIT-ERR C280800300015 KEV EV EV EV EV C280800300016 851. 9.2 0.7 0.594 0.038 C280800300017 ENDDATA 3 0 C280800300018 ENDSUBENT 17 0 C280800399999 ENDENTRY 3 0 C280899999999