ENTRY D5060 20100303 D072D506000000001 SUBENT D5060001 20100303 D072D506000100001 BIB 12 39 D506000100002 TITLE Total strength of the magnetic dipole resonance in 37ClD506000100003 and 39K D506000100004 AUTHOR (A.S.Kachan, I.V.Kurguz, I.S.Kovtunenko, V.M.Mischenko)D506000100005 INSTITUTE (4UKRKFT) D506000100006 REFERENCE (J,IZV,72,(3),430,2008) D506000100007 (J,BAS,72,403,2008) D506000100008 #NSR:2008KA10 D506000100009 #doi:10.3103/s11954-008-3027-7 D506000100010 FACILITY (VDG,4UKRUFT)Electrostatic accelerator ESA-5. D506000100011 SAMPLE The 36S target consisting of Ag2S(81.1% 36S) was D506000100012 deposited on tantalum backing. The 36S target thicknessD506000100013 is 20 micro-g/cm-2. D506000100014 DETECTOR (GELI) One germanium- lithium detector is used with D506000100015 an active volume of 60 cm**3 and a resolution of 4.0 D506000100016 keV at Eg=1.33 MeV.The gamma-rays were detected at D506000100017 angle of 55 degrees concerning proton beam direction. D506000100018 (NAICR) NaI(Tl) detector was used for excitation D506000100019 function measurements. To avoid errors,connected with D506000100020 anisotropy of gamma-quantum angle distribution, gamma- D506000100021 spectra of resonances were carried out at angle of 55 D506000100022 degrees. The dimensions of the crystal was diameter D506000100023 150 x 100 mm. D506000100024 METHOD (GSPEC) D506000100025 COMMENT The resonance strengthes were determined in comparison D506000100026 with intensity of gamma-line Eg=7118 keV, which D506000100027 corresponds to a transition from resonance level at D506000100028 Ep=1887keV onto state 3104 keV. The strength and decay D506000100029 scheme of this level is well known from D506000100030 P.M.Endt,J,NP/A,521,1,1990. D506000100031 ANALYSIS In REACTIONs FCT=1/(2Jp+1)(2Jt+1), D506000100032 where is Jp = spin of incident projectile and D506000100033 Jt = spin of target nucleus. D506000100034 In the formula of resonance strength: D506000100035 g*Gamma(i)Gamma(j)/Gamma(tot) D506000100036 instead of usual statistical weight: D506000100037 g=(2J+1)/(2Jp+1)(2Jt+1), the authors used g=(2J+1) D506000100038 ERR-ANALYS No information. D506000100039 HISTORY (20081020C)UKRNDC D506000100040 (20100303A) SD: ref.of DOI of publ. corrected D506000100041 ENDBIB 39 0 D506000100042 NOCOMMON 0 0 D506000100043 ENDSUBENT 42 0 D506000199999 SUBENT D5060002 20081021 D064D506000200001 BIB 2 2 D506000200002 REACTION (16-S-36(P,0),,WID/STR,,RG)See ANALYSIS in SUB 001 D506000200003 STATUS (TABLE) Table in text D506000200004 ENDBIB 2 0 D506000200005 NOCOMMON 0 0 D506000200006 DATA 3 9 D506000200007 EN-RES DATA DATA-ERR D506000200008 KEV EV EV D506000200009 1887. 32. 3. D506000200010 2037. 9.3 0.9 D506000200011 2080. 23.2 0.9 D506000200012 2122. 21.7 0.9 D506000200013 2165. 14.5 0.6 D506000200014 2228. 11.8 1.3 D506000200015 2392. 13.6 0.8 D506000200016 2428. 18.8 1.2 D506000200017 2459. 25.7 4.8 D506000200018 ENDDATA 11 0 D506000200019 ENDSUBENT 18 0 D506000299999 ENDENTRY 2 0 D506099999999