ENTRY V+74 0 V+74 0 1 SUBENT V+74 1 0 V+74 1 1 BIB 12 34 V+74 1 2 INSTITUTES (FRPAR) V+74 1 3 (FRASTR) V+74 1 4 REFERENCE (CONF,74AMSTER, INT'L CONFERENCE ON NUCLEAR STRUCTURE V+74 1 5 AND SPECTROSCOPY, NUCLEAR MODELS IN THEORY AND V+74 1 6 EXPERIMENT, AMSTERDAM, SEPTEMBER 9-13, 1974, THE V+74 1 7 NETHERLANDS PHYSICAL SOCIETY, EDS. H.P. BLOCK AND V+74 1 8 A.E.L. DIEPERINK, VOL. 1, CONTRIBUTED PAPERS, 79, V+74 1 9 1974) V+74 1 10 AUTHORS (J.VERNOTTE,J.M.MAISON,C.MIEHE,A.CHEVALLIER,A.HUCK, V+74 1 11 G.WALTER) V+74 1 12 TITLE ELECTROMAGNETIC DECAY OF THE EX = 6621 LEVEL OF 32S V+74 1 13 FACILITY (VDG) 3-MV VAN DE GRAAFF ACCELERATOR, CENTRE DE V+74 1 14 RECHERCHES NUCLEAIRES ET UNIVERSITE LOUIS-PASTEUR, V+74 1 15 STRASBOURG-CRONENBOURG, FRANCE. V+74 1 16 INC-PART (P) PROTONS. V+74 1 17 TARGETS RED PHOSPHORUS EVAPORATED ON A GOLD BACKING. NO V+74 1 18 DETAILS GIVEN. V+74 1 19 METHOD PROTON BEAMS WERE OBTAINED FROM THE STRASBOURG- V+74 1 20 CRONENBOURG VAN DE GRAAFF ACCELERATOR. MEASUREMENTS V+74 1 21 WERE MADE AT TWO STRONG RESONANCES FOR INCIDENT V+74 1 22 PROTONS, NAMELY, EP = 1437 AND 1581 KEV. THESE WERE V+74 1 23 USED TO POPULATE THE BOUND STATE AT EX = 6621 KEV V+74 1 24 THROUGH GAMMA-RAY TRANSITIONS FROM THE RESONANT V+74 1 25 STATE. THE DOPPLER SHIFT ATTENUATION METHOD WAS USED V+74 1 26 FOR A LIFETIME MEASUREMENT OF THIS STATE. MEASUREMENTS V+74 1 27 WERE MADE AT 0 DEGREE, 90 DEGREES, AND 130 DEGREES. V+74 1 28 GAMMA-RAY SPECTRA AND TRANSITION STRENGTHS AND MIXING V+74 1 29 RATIOS WERE DEDUCED FROM MEASUREMENTS WITH A GE(LI) V+74 1 30 DETECTOR. FEW DETAILS ARE PROVIDED IN THIS SHORT V+74 1 31 CONFERENCE COMMUNICATION. V+74 1 32 DETECTOR (GELI) 69-CM**3 GE(LI) DETECTOR. V+74 1 33 MONITORS NOT MENTIONED. V+74 1 34 CORRECTION NOT MENTIONED. V+74 1 35 ERR-ANALYS NOT MENTIONED. V+74 1 36 ENDBIB 34 V+74 1 37 ENDSUBENT 1 V+74 199999 SUBENT V+74 2 0 V+74 2 1 BIB 2 15 V+74 2 2 REACTION 31P(P,GAMMA)32S V+74 2 3 COMMENTS THE LIFETIME OF THE 6621-KEV STATE IN 32S, GAMMA-RAY V+74 2 4 TRANSITION MIXING RATIOS, AND GAMMA-RAY TRANSITION V+74 2 5 STRENGTHS ARE GIVEN. TAU = MEAN LIFETIME OF THE 6621- V+74 2 6 KEV STATE IN 32S. TAU-ERR = ERROR IN TAU. EI = ENERGY V+74 2 7 OF INITIAL STATE FOR GAMMA-RAY TRANSITION. EF = V+74 2 8 ENERGY OF FINAL STATE. B = BRANCHING RATIO. B-ERR = V+74 2 9 ERROR IN B. MIXRAT = MIXING RATIO. MIXRAT-ERR = ERROR V+74 2 10 IN MIXRAT. TYPE = TRANSITION TYPE (E1, M1, E2, M2, E3). V+74 2 11 TRANS = TRANSITION STRENGTH. TRANS-ERR = ERROR IN V+74 2 12 TRANS. W.U. = WEISSKOPF UNITS. PCT = PERCENT. FSEC = V+74 2 13 FEMTOSECOND = 10**(-15) SECOND. WHENEVER A PARTICULAR V+74 2 14 VALUE IS NOT GIVEN IT MEANS IT IS NOT AVAILABLE. THE V+74 2 15 DATA WERE TAKEN FROM THE TEXT AND A SMALL TABLE THAT V+74 2 16 APPEAR IN THE ORIGINAL CONFERENCE COMMUNICATION. V+74 2 17 ENDBIB 15 V+74 2 18 DATA 12 7 V+74 2 19 EX TAU TAU-ERR EI EF B V+74 2 20 B-ERR MIXRAT MIXRAT-ERR TYPE TRANS TRANS-ERR V+74 2 21 KEV FSEC FSEC KEV KEV PCT V+74 2 22 PCT NO-DIM NO-DIM NO-DIM W.U. W.U. V+74 2 23 6621. 975. 200. 6621. 2231. 1.7 V+74 2 24 0.2 0.44 0.07 M2 0.040 0.023 V+74 2 25 6621. 975. 200. 6621. 2231. 1.7 V+74 2 26 0.2 0.44 0.07 E3 2.6 1.7 V+74 2 27 6621. 975. 200. 6621. 4459. 22. V+74 2 28 2. 0.056 0.021 E1 2.2000E-05 6.0000E-06 V+74 2 29 6621. 975. 200. 6621. 4459. 22. V+74 2 30 2. 0.056 0.021 M2 0.066 0.042 V+74 2 31 6621. 975. 200. 6621. 5006. 75. V+74 2 32 5. -5.5 0.2 M1 1.8000E-04 5.0000E-05 V+74 2 33 6621. 975. 200. 6621. 5006. 75. V+74 2 34 5. -5.5 0.2 E2 9.3 2.4 V+74 2 35 6621. 975. 200. 6621. 5414. 1.6 V+74 2 36 0.2 0. E1 9.0000E-06 3.0000E-06 V+74 2 37 ENDDATA 18 V+74 2 38 ENDSUBENT 2 V+74 299999 ENDENTRY 2 V+749999999