ENTRY K+77 0 K+77 0 1 SUBENT K+77 1 0 K+77 1 1 BIB 13 29 K+77 1 2 INSTITUTE (CCPUFT) K+77 1 3 REFERENCE (J,BAS,41,1,124,1977) K+77 1 4 AUTHORS (V.YA.KOSTIN,E.G.KOPANETS,A.A.KOVAL,A.N.L'VOV, K+77 1 5 V.YA.MIGALENYA,S.P.TSYITKO) K+77 1 6 TITLE ANGULAR DISTRIBUTIONS OF GAMMA-RAYS FROM THE K+77 1 7 31P(P,GAMMA)32S REACTION K+77 1 8 FACILITY (VDG) ELECTROSTATIC ACCELERATOR, PHYSICAL TECHNICAL K+77 1 9 INSTITUTE, URKRAINIAN SSR ACADEMY OF SCIENCES, K+77 1 10 KHARKOV, UKRAINE SSR. K+77 1 11 INC-PART (P) PROTONS. K+77 1 12 TARGETS THINLY DEPOSITED ZN3P2 ON TANTALUM SUPPORTS. K+77 1 13 METHOD ANGULAR DISTRIBUTIONS WERE MEASURED AT THE EP = K+77 1 14 1121, 1151, 1557, AND 1953 KEV RESONANCES. GAMMA- K+77 1 15 RAY SPECTRA WERE MEASURED WITH A 60-CM**3 GE(LI) K+77 1 16 DETECTOR. THE STRONGEST TRANSITIONS WERE FITTED WITH K+77 1 17 LEGENDRE-POLYNOMIAL EXPANSIONS UP TO FOURTH ORDER. K+77 1 18 AN ELECTROSTATIC ACCELERATOR WAS USED TO GENERATE K+77 1 19 PROTON BEAMS USED IN THE EXPERIMENT. NO OTHER K+77 1 20 EXPERIMENTAL DETAILS ARE PROVIDED. K+77 1 21 DETECTOR (GELI) 60-CM*3 GE(LI) DETECTOR WITH A RESOLUTION OF K+77 1 22 3.5 KEV FOR 1333-KEV GAMMA-RAYS. K+77 1 23 MONITOR NOT SPECIFIED IN ORIGINAL PAPER. K+77 1 24 CORRECTION CORRECTION PROCEDURES ARE NOT DISCUSSED IN THE K+77 1 25 ORIGINAL PAPER. K+77 1 26 ERR-ANALYS ERRORS ARE GIVEN FOR LEGENDRE-POLYNOMIAL K+77 1 27 COEFFICIENTS BUT NO DETAILS ARE PROVIDED ON HOW K+77 1 28 ERRORS WERE DETERMINED. K+77 1 29 COMMENT THIS IS A RELATIVELY SHORT COMMUNICATION WITH FEW K+77 1 30 DETAILS PROVIDED. K+77 1 31 ENDBIB 29 K+77 1 32 ENDSUBENT 1 K+77 199999 SUBENT K+77 2 0 K+77 2 1 BIB 2 15 K+77 2 2 REACTION 31P(P,GAMMA)32S K+77 2 3 COMMENTS ANGULAR DISTRIBUTIONS OF GAMMA RAYS FROM THE DECAY K+77 2 4 OF RESONANCE STATES IN 32S ARE GIVEN. DATA OBTAINED K+77 2 5 FROM TABLE 1 OF THE ORIGINAL PAPER. EP = RESONANCE K+77 2 6 PROTON ENERGY. EX = EXCITATION ENERGY OF RESONANT K+77 2 7 STATE IN 32S. EI = ENERGY OF INITIAL STATE OF GAMMA- K+77 2 8 RAY TRANSITION. J-PI(I) = SPIN/PARITY OF INITIAL K+77 2 9 STATE. EF = ENERGY OF FINAL STATE. J=PI(F) = K+77 2 10 SPIN/PARITY OF FINAL STATE. NEGATIVE SIGN SIGNIFIES K+77 2 11 NEGATIVE PARITY. OTHERWISE PARITY IS POSITIVE. A2 = K+77 2 12 LEGENDRE-POLYNOMIAL COEFFICIENT FOR P2 TERM. A2-ERR K+77 2 13 = ERROR IN A2. A4 = LEGENDRE-POLYNOMIAL COEFFICIENT K+77 2 14 FOR P4 TERM. A4-ERR = ERROR IN A4. A BLANK ENTRY K+77 2 15 SIGNIFIES THAT INFORMATION IS NOT AVAILABLE OR IS K+77 2 16 INCOMPLETE IN THE ORIGINAL PAPER. K+77 2 17 ENDBIB 15 K+77 2 18 DATA 10 13 K+77 2 19 EP EX EI J-PI(I) EF J-PI(F) K+77 2 20 A2 A2-ERR A4 A4-ERR K+77 2 21 KEV KEV KEV NO-DIM KEV NO-DIM K+77 2 22 NO-DIM NO-DIM NO-DIM NO-DIM K+77 2 23 1121. 9950. 9950. 0. 0. K+77 2 24 0.032 0.166 0.211 0.171 K+77 2 25 1121. 9950. 9950. 2230. 2. K+77 2 26 0.761 0.098 -0.161 0.102 K+77 2 27 1121. 9950. 9950. 8126. 1. K+77 2 28 0.299 0.038 0.093 0.038 K+77 2 29 1151. 9979. 9979. 2230. 2. K+77 2 30 -0.003 0.041 0.102 0.043 K+77 2 31 1151. 9979. 9979. 5549. 2. K+77 2 32 -0.339 0.035 0.038 0.035 K+77 2 33 1557. 10372. 10372. 2. 2230. 2. K+77 2 34 0.479 0.041 -0.024 0.043 K+77 2 35 1557. 10372. 10372. 2. 4282. 2. K+77 2 36 0.544 0.033 -0.088 0.034 K+77 2 37 1557. 10372. 10372. 2. 4695. 1. K+77 2 38 -0.276 0.035 -0.171 0.036 K+77 2 39 1557. 10372. 10372. 2. 5412. 3. K+77 2 40 0.140 0.09 0.009 0.010 K+77 2 41 1557. 10372. 10372. 2. 6666. K+77 2 42 0.438 0.031 -0.057 0.032 K+77 2 43 1953. 10756. 10756. 4459. 4. K+77 2 44 -0.19 0.04 0.04 0.04 K+77 2 45 1953. 10756. 10756. 5412. 2. K+77 2 46 0.23 0.07 0.00 0.10 K+77 2 47 1953. 10756. 10756. 5549. 2. K+77 2 48 -0.20 0.09 -0.03 0.08 K+77 2 49 ENDDATA 30 K+77 2 50 ENDSUBENT 2 K+77 299999 SUBENT K+77 3 0 K+77 3 1 BIB 2 12 K+77 3 2 REACTION 31P(P,GAMMA)32S K+77 3 3 COMMENTS MATRIX ELEMENTS FOR GAMMA-RAY TRANSITIONS ARE GIVEN. K+77 3 4 VALUES ARE OBTAINED FROM TABLE 3 OF THE ORIGINAL K+77 3 5 ARTICLE. EX = EXCITATION ENERGY OF RESONANT STATE K+77 3 6 IN 32S. EI = ENERGY OF INITIAL STATE OF GAMMA-RAY K+77 3 7 TRANSITION. EF = ENERGY OF FINAL STATE. J-PI(I) = K+77 3 8 SPIN/PARITY OF INITIAL STATE. J-PI(F) = SPIN/PARITY K+77 3 9 OF FINAL STATE. NEGATIVE SIGN INDICATES NEGATIVE K+77 3 10 PARITY. OTHERWISE PARITY IS POSITIVE. TRANSTYP = K+77 3 11 TRANSITION TYPE (M1 = MAGNETIC DIPOLE, E2 = ELECTRIC K+77 3 12 QUADRUPOLE). ME = MATRIX ELEMENT. ME-ERR = ERROR IN K+77 3 13 ME. W.U. = WEISSKOPF UNITS. K+77 3 14 ENDBIB 12 K+77 3 15 DATA 8 5 K+77 3 16 EX EI J-PI(I) EF J-PI(F) TRANSTYP K+77 3 17 ME ME-ERR K+77 3 18 KEV KEV NO-DIM KEV NO-DIM NO-DIM K+77 3 19 W.U. W.U. K+77 3 20 10372. 10372. 2. 2230. 2. M1 K+77 3 21 0.019 0.006 K+77 3 22 10372. 10372. 2. 4282. 2. M1 K+77 3 23 0.16 0.05 K+77 3 24 10372. 10372. 2. 4695. 1. M1 K+77 3 25 0.038 0.013 K+77 3 26 10372. 10372. 2. 5412. 3. M1 K+77 3 27 0.011 0.004 K+77 3 28 10372. 10372. 2. 5412. 3. E2 K+77 3 29 10. 3. K+77 3 30 ENDDATA 14 K+77 3 31 ENDSUBENT 3 K+77 399999 ENDENTRY 3 K+779999999