ENTRY CMR72 0 CMR72 0 1 SUBENT CMR72 1 0 CMR72 1 1 BIB 12 40 CMR72 1 2 INSTITUTE (SAFPOT) CMR72 1 3 REFERENCE (J,NP/A,185,644,1972) CMR72 1 4 AUTHORS (W.F.COETZEE,M.A.MEYER,D.REITMANN) CMR72 1 5 TITLE A STUDY OF THE 31P(P,GAMMA)32S REACTION AND THE CMR72 1 6 EXCITED STATES OF 32S CMR72 1 7 FACILITIES (C-W) 1.1-MV COCKCROFT-WALTON ACCELERATOR, PHYSICS CMR72 1 8 DEPARTMENT, POTCHEFSTROOM UNIVERSITY, SOUTH AFRICA. CMR72 1 9 (VDG) 3-MV VAN DE GRAAFF ACCELERATOR, PHYSICS CMR72 1 10 DEPARTMENT, POTCHEFSTROOM UNIVERSITY, SOUTH AFRICA. CMR72 1 11 INC-PART (P) PROTONS. CMR72 1 12 TARGETS TARGETS FOR USE WITH 1.1-MV C-W WERE MADE BY CMR72 1 13 EVAPORATING ZINC PHOSPHIDE ONTO 1-MM-THICK COPPER CMR72 1 14 BACKING. TARGETS FOR USE WITH 3-MV VDG WERE MADE BY CMR72 1 15 EVAPORATING ZIN PHOSPHIDE ONTO 0.3-MM-THICK TANTALUM CMR72 1 16 BACKING. THEY WERE CLEANED BY ELECTRON BOMBARDMENT. CMR72 1 17 ALL THE TARGETS WERE WATER-COOLED. CMR72 1 18 ALL THE TARGETS WERE CLEANED BY HEATING IN A VACUUM. CMR72 1 19 METHOD PHOSPHORUS COMPOUND TARGETS WERE BOMBARDED WITH 0.35 CMR72 1 20 TO 2.03 MEV PROTONS. GAMMA-RAY YIELD EXCITATION CMR72 1 21 FUNCTIONS WERE MEASURED TO DETERMINE RESONANCE CMR72 1 22 ENERGIES AND STRENGTHS. GAMMA-DECAY BRANCHING RATIOS CMR72 1 23 AND GAMMA-RAY ANGULAR DISTRIBUTIONS WERE MEASURED AT CMR72 1 24 THE RESONANCE ENERGIES FOR BOTH BOUND AND UNBOUND CMR72 1 25 STATES. LIFETIMES OF BOUND STATES WERE MEASURED BY CMR72 1 26 THE DOPPLER SHIFT ATTENUATION METHOD. DETAILS ARE CMR72 1 27 GIVEN IN THE PAPER. CMR72 1 28 DETECTORS (GELI) GE(LI) DETECTORS WITH 30 AND 40 CM**3 VOLUME CMR72 1 29 WERE USED TO DETECT GAMMA RAYS FOR THE BRANCHING CMR72 1 30 RATIO AND ANGULAR DISTRIBUTION MEASUREMENTS. CMR72 1 31 (SCINT) A 10-CM X 10-CM NAI DETECTOR WAS USED FOR CMR72 1 32 THE EXCITATION FUNCTION MEASUREMENTS TO DETERMINE CMR72 1 33 RESONANCE ENERGIES AND RESONANCE STRENGTHS. CMR72 1 34 MONITORS (CI) CURRENT INTEGRATORS. CMR72 1 35 CORRECTION GAMMA-RAY YIELDS WERE CORRECTED FOR DETECTOR CMR72 1 36 EFFICIENCY. CORRECTIONS FOR BACKGROUND EVENTS CMR72 1 37 WERE APPLIED TO GAMMA-RAY YIELD DATA. CMR72 1 38 ERR-ANALYS ERRORS ARE GIVEN FOR GAMMA-RAY ENERGIES, 32S LEVEL CMR72 1 39 EXCITATION ENERGIES, BRANCHING RATIOS, RESONANCE CMR72 1 40 STRENGTHS, AND ANGULAR DISTRIBUTION COEFFICIENTS. CMR72 1 41 DETAILS ARE GIVEN IN THE PAPER. CMR72 1 42 ENDBIB 40 CMR72 1 43 ENDSUBENT 1 CMR72 199999 SUBENT CMR72 2 0 CMR72 2 1 BIB 2 9 CMR72 2 2 REACTION 31P(P,GAMMA)32S CMR72 2 3 COMMENTS ENERGIES AND STRENGTHS OF RESONANCES FOR EP < 2.03 CMR72 2 4 MEV ARE GIVEN. DATA TAKEN FROM TABLE 1 OF THE PAPER. CMR72 2 5 EP = RESONANCE PROTON ENERGY. EP-ERR = ERROR IN CMR72 2 6 PROTON ENERGY. S = RESONANCE GAMMA-RAY STRENGTH = CMR72 2 7 (2J+1)*GAMMA(P)*GAMMA(G)/GAMMA(TOTAL), AS CMR72 2 8 INDICATED IN SECTION 3.2. ERRORS IN S ARE OF THE CMR72 2 9 ORDER OF 30 PERCENT BUT ARE NOT GIVEN EXPLICITLY IN CMR72 2 10 THE TABLE. CMR72 2 11 ENDBIB 9 CMR72 2 12 DATA 3 35 CMR72 2 13 EP EP-ERR S CMR72 2 14 KEV KEV EV CMR72 2 15 354.8 0.4 0.003 CMR72 2 16 439.4 0.5 0.25 CMR72 2 17 541.4 0.6 1.0 CMR72 2 18 618.9 1.0 0.06 CMR72 2 19 642.4 0.7 0.52 CMR72 2 20 811.3 0.5 2.2 CMR72 2 21 821.0 1.0 0.43 CMR72 2 22 874.3 0.5 0.29 CMR72 2 23 887.8 0.5 0.18 CMR72 2 24 894.5 0.5 0.7 CMR72 2 25 983.8 1.0 0.18 CMR72 2 26 1056.5 0.6 1.1 CMR72 2 27 1089.6 0.6 0.38 CMR72 2 28 1120.7 0.6 3.0 CMR72 2 29 1150.5 0.6 3.9 CMR72 2 30 1155.1 0.6 1.5 CMR72 2 31 1251.4 0.6 11. CMR72 2 32 1400.1 0.6 1.3 CMR72 2 33 1402.9 0.8 5.0 CMR72 2 34 1411.4 0.6 2.0 CMR72 2 35 1438.3 0.7 11. CMR72 2 36 1473.1 0.6 2.4 CMR72 2 37 1556.6 0.6 9. CMR72 2 38 1582.9 0.6 8. CMR72 2 39 1698.9 1.0 0.9 CMR72 2 40 1746.9 1.0 2.9 CMR72 2 41 1764.2 1.0 0.9 CMR72 2 42 1796.1 1.0 1.1 CMR72 2 43 1891.5 1.0 2.2 CMR72 2 44 1896.0 1.0 2.5 CMR72 2 45 1954.0 1.0 7. CMR72 2 46 1977.1 1.0 3.9 CMR72 2 47 1983.6 1.0 8. CMR72 2 48 1990.9 1.0 5.3 CMR72 2 49 2026.6 1.0 15. CMR72 2 50 ENDDATA 37 CMR72 2 51 ENDSUBENT 2 CMR72 299999 SUBENT CMR72 3 0 CMR72 3 1 BIB 2 12 CMR72 3 2 REACTION 31P(P,P1)31P CMR72 3 3 COMMENTS STRENGTHS FOR (P,P1) RESONANCES IN THE RANGE EP = CMR72 3 4 1 TO 2 MEV WERE DERIVED FROM THE INTENSITY OF THE CMR72 3 5 1.27-MEV GAMMA RAY AND THE TOTAL INTENSITY OF THE CMR72 3 6 GAMMA-DECAY OF THE CORRESPONDING RESONANCE. THE CMR72 3 7 INFORMATION WAS OBTAINED FROM TABLE 2 OF THE PAPER. CMR72 3 8 EP = PROTON ENERGY. EP-ERR = ERROR IN PROTON CMR72 3 9 ENERGY. S = RESONANCE INELASTIC PROTON STRENGTH = CMR72 3 10 (2J+1)*GAMMA(P)*GAMMA(P1)/GAMMA(TOTAL), AS CMR72 3 11 INDICATED IN SECTION 3.2. ERRORS IN S ARE OF THE CMR72 3 12 ORDER OF 30 PERCENT BUT ARE NOT GIVEN EXPLICITLY IN CMR72 3 13 THE TABLE. CMR72 3 14 ENDBIB 12 CMR72 3 15 DATA 3 10 CMR72 3 16 EP EP-ERR S CMR72 3 17 KEV KEV EV CMR72 3 18 1400.1 0.6 0.061 CMR72 3 19 1411.4 0.6 0.022 CMR72 3 20 1796.1 1.0 2.0 CMR72 3 21 1891.5 1.0 0.15 CMR72 3 22 1896.0 1.0 0.25 CMR72 3 23 1954.0 1.0 0.41 CMR72 3 24 1977.1 1.0 0.55 CMR72 3 25 1983.6 1.0 1.2 CMR72 3 26 1990.9 1.0 6.0 CMR72 3 27 2026.6 1.0 6.5 CMR72 3 28 ENDDATA 12 CMR72 3 29 ENDSUBENT 3 CMR72 399999 SUBENT CMR72 4 0 CMR72 4 1 BIB 2 12 CMR72 4 2 REACTION 31P(P,GAMMA)32S CMR72 4 3 COMMENTS GAMMA-RAY DECAY BRANCHING FOR THE RESONANCES IS CMR72 4 4 GIVEN. INFORMATION OBTAINED FROM TABLE 3. EP = CMR72 4 5 RESONANCE PROTON ENERGY. EX = EXCITATION OF RESONANT CMR72 4 6 STATE IN 32S. EF = ENERGY OF FINAL STATE FOR GAMMA- CMR72 4 7 RAY TRANSITION. J-PI-R = SPIN AND PARITY OF RESONANT CMR72 4 8 STATE. J-PI-F = SPIN AND PARITY OF FINAL STATE FOR CMR72 4 9 GAMMA-RAY TRANSITION. NEGATIVE PARITY IS INDICATED CMR72 4 10 BY A NEGATIVE NUMBER. OTHERWISE PARITY IS POSITIVE. CMR72 4 11 B = BRANCHING RATIO. WHEN INFORMATION IS NOT CMR72 4 12 AVAILABLE OR IS AMBIGUOUS, THE CORRESPONDING SPACE CMR72 4 13 IS LEFT BLANK. PCT = PERCENT. CMR72 4 14 ENDBIB 12 CMR72 4 15 DATA 6 177 CMR72 4 16 EP EX J-PI-R EF J-PI-F B CMR72 4 17 KEV KEV NO-DIM MEV NO-DIM PCT CMR72 4 18 355. 9209. 0. 0. 38. CMR72 4 19 355. 9209. 2.23 2. 35. CMR72 4 20 355. 9209. 3.78 0. 6. CMR72 4 21 355. 9209. 5.55 2. 5. CMR72 4 22 355. 9209. 5.80 -1. 5. CMR72 4 23 355. 9209. 1. 6.22 -2. 11. CMR72 4 24 439. 9290. 1. 0. 0. 40. CMR72 4 25 439. 9290. 1. 2.23 2. 20. CMR72 4 26 439. 9290. 1. 4.70 1. 13. CMR72 4 27 439. 9290. 1. 6.22 -2. 2. CMR72 4 28 541. 9389. -2. 0. 0. 2. CMR72 4 29 541. 9389. -2. 2.23 2. 63. CMR72 4 30 541. 9389. -2. 4.28 2. 2. CMR72 4 31 541. 9389. -2. 4.70 1. 2. CMR72 4 32 541. 9389. -2. 5.01 -3. 9. CMR72 4 33 541. 9389. -2. 5.55 2. 1. CMR72 4 34 541. 9389. -2. 5.80 -1. 2. CMR72 4 35 541. 9389. -2. 6.22 -2. 17. CMR72 4 36 541. 9389. -2. 6.62 -4. 1. CMR72 4 37 619. 9464. 2. 0. 0. 51. CMR72 4 38 619. 9464. 2. 2.23 2. 22. CMR72 4 39 619. 9464. 2. 4.70 1. 27. CMR72 4 40 642. 9487. -1. 0. 0. 82. CMR72 4 41 642. 9487. -1. 4.28 2. 9.5 CMR72 4 42 642. 9487. -1. 5.01 -3. 3.5 CMR72 4 43 642. 9487. -1. 5.80 -1. 0.5 CMR72 4 44 811. 9651. 2. 0. 0. 0.1 CMR72 4 45 811. 9651. 2. 2.23 2. 61. CMR72 4 46 811. 9651. 2. 4.70 1. 38. CMR72 4 47 811. 9651. 2. 5.41 3. 0.9 CMR72 4 48 821. 9660. 0. 0. 74. CMR72 4 49 821. 9660. 2.23 2. 15. CMR72 4 50 821. 9660. 3.78 0. 2. CMR72 4 51 821. 9660. 4.70 1. 3. CMR72 4 52 821. 9660. 5.55 2. 2. CMR72 4 53 874. 9712. 2. 0. 0. 7. CMR72 4 54 874. 9712. 2. 2.23 2. 59. CMR72 4 55 874. 9712. 2. 4.70 1. 34. CMR72 4 56 888. 9725. 5.01 -3. 40. CMR72 4 57 888. 9725. 6.22 -2. 14. CMR72 4 58 888. 9725. 6.62 -4. 46. CMR72 4 59 895. 9731. 0. 0. 3. CMR72 4 60 895. 9731. 2.23 2. 18. CMR72 4 61 895. 9731. 4.28 2. 24. CMR72 4 62 895. 9731. 4.70 1. 5. CMR72 4 63 895. 9731. 5.01 -3. 4. CMR72 4 64 895. 9731. 5.55 2. 3. CMR72 4 65 895. 9731. 5.80 -1. 19. CMR72 4 66 895. 9731. 6.22 -2. 18. CMR72 4 67 984. 9818. 0.0 0. 0.4 CMR72 4 68 984. 9818. 2.23 2. 19. CMR72 4 69 984. 9818. 4.28 2. 9. CMR72 4 70 984. 9818. 4.46 4. 1.6 CMR72 4 71 984. 9818. 5.01 -3. 52. CMR72 4 72 984. 9818. 5.80 -1. 3. CMR72 4 73 984. 9818. 6.22 -2. 6. CMR72 4 74 1057. 9888. 0. 0. 1. CMR72 4 75 1057. 9888. 2.23 2. 10. CMR72 4 76 1057. 9888. 4.28 2. 5. CMR72 4 77 1057. 9888. 4.70 1. 5. CMR72 4 78 1057. 9888. 5.55 2. 9. CMR72 4 79 1090. 9920. 0.0 0. 0.5 CMR72 4 80 1090. 9920. 2.23 2. 46. CMR72 4 81 1090. 9920. 4.28 2. 2. CMR72 4 82 1090. 9920. 5.41 3. 3. CMR72 4 83 1090. 9920. 5.55 2. 31. CMR72 4 84 1121. 9950. 0. 0. 77. CMR72 4 85 1121. 9950. 2.23 2. 9. CMR72 4 86 1121. 9950. 3.78 0. 3. CMR72 4 87 1121. 9950. 4.28 2. 2. CMR72 4 88 1121. 9950. 4.70 1. 2. CMR72 4 89 1151. 9979. -3. 0. 0. 0.3 CMR72 4 90 1151. 9979. -3. 2.23 2. 32. CMR72 4 91 1151. 9979. -3. 4.46 4. 6. CMR72 4 92 1151. 9979. -3. 5.01 -3. 8. CMR72 4 93 1151. 9979. -3. 5.41 3. 7. CMR72 4 94 1151. 9979. -3. 5.55 2. 26. CMR72 4 95 1151. 9979. -3. 6.22 -2. 4. CMR72 4 96 1151. 9979. -3. 6.62 -4. 5. CMR72 4 97 1155. 9984. 2. 0. 0. 0.5 CMR72 4 98 1155. 9984. 2. 2.23 2. 64. CMR72 4 99 1155. 9984. 2. 4.28 2. 2. CMR72 4 100 1155. 9984. 2. 4.70 1. 19. CMR72 4 101 1155. 9984. 2. 5.01 -3. 1. CMR72 4 102 1155. 9984. 2. 5.41 3. 1. CMR72 4 103 1155. 9984. 2. 5.55 2. 12. CMR72 4 104 1155. 9984. 2. 6.22 -2. 0.4 CMR72 4 105 1155. 9984. 2. 6.62 -4. 0.6 CMR72 4 106 1251. 10077. -2. 0. 0. 2. CMR72 4 107 1251. 10077. -2. 2.23 2. 34. CMR72 4 108 1251. 10077. -2. 4.28 2. 2. CMR72 4 109 1251. 10077. -2. 4.70 1. 1. CMR72 4 110 1251. 10077. -2. 5.01 -3. 12. CMR72 4 111 1251. 10077. -2. 5.41 3. 4. CMR72 4 112 1251. 10077. -2. 6.22 -2. 45. CMR72 4 113 1438. 10258. -4. 2.23 2. 1. CMR72 4 114 1438. 10258. -4. 4.46 4. 11. CMR72 4 115 1438. 10258. -4. 5.01 -3. 4. CMR72 4 116 1438. 10258. -4. 6.62 -4. 77. CMR72 4 117 1473. 10292. 2. 0. 0. 2. CMR72 4 118 1473. 10292. 2. 2.23 2. 36. CMR72 4 119 1473. 10292. 2. 4.28 2. 2. CMR72 4 120 1473. 10292. 2. 5.01 -3. 25. CMR72 4 121 1473. 10292. 2. 5.41 3. 2. CMR72 4 122 1473. 10292. 2. 6.22 -2. 31. CMR72 4 123 1557. 10372. 2. 0. 0. 0.5 CMR72 4 124 1557. 10372. 2. 2.23 2. 12. CMR72 4 125 1557. 10372. 2. 4.28 2. 43. CMR72 4 126 1557. 10372. 2. 4.70 1. 8. CMR72 4 127 1557. 10372. 2. 5.01 -3. 1.5 CMR72 4 128 1557. 10372. 2. 5.41 3. 13. CMR72 4 129 1557. 10372. 2. 5.55 2. 2. CMR72 4 130 1557. 10372. 2. 6.22 -2. 2. CMR72 4 131 1583. 10398. 2.23 2. 1. CMR72 4 132 1583. 10398. 4.28 2. 2. CMR72 4 133 1583. 10398. 4.46 4. 1.8 CMR72 4 134 1583. 10398. 5.01 -3. 5.6 CMR72 4 135 1583. 10398. 6.62 -4. 84. CMR72 4 136 1699. 10510. 0. 0. 5. CMR72 4 137 1699. 10510. 2.23 2. 25. CMR72 4 138 1699. 10510. 4.28 2. 15. CMR72 4 139 1699. 10510. 4.70 1. 8. CMR72 4 140 1699. 10510. 5.41 3. 8. CMR72 4 141 1747. 10557. 0. 0. 40. CMR72 4 142 1747. 10557. 2.23 2. 60. CMR72 4 143 1764. 10574. 0. 0. 7. CMR72 4 144 1764. 10574. 2.23 2. 44. CMR72 4 145 1764. 10574. 4.46 4. 16. CMR72 4 146 1764. 10574. 5.41 3. 33. CMR72 4 147 1796. 10604. 0. 0. 19. CMR72 4 148 1796. 10604. 2.23 2. 6. CMR72 4 149 1796. 10604. 5.01 -3. 8. CMR72 4 150 1796. 10604. 5.41 3. 10. CMR72 4 151 1796. 10604. 5.55 2. 39. CMR72 4 152 1796. 10604. 5.80 -1. 5. CMR72 4 153 1892. 10697. 2. 0. 0. 70. CMR72 4 154 1892. 10697. 2. 2.23 2. 5. CMR72 4 155 1892. 10697. 2. 3.78 0. 3. CMR72 4 156 1892. 10697. 2. 4.28 2. 10. CMR72 4 157 1892. 10697. 2. 4.46 4. 1. CMR72 4 158 1892. 10697. 2. 4.70 1. 2. CMR72 4 159 1892. 10697. 2. 5.01 -3. 3. CMR72 4 160 1892. 10697. 2. 5.55 2. 2. CMR72 4 161 1892. 10697. 2. 5.80 -1. 3. CMR72 4 162 1896. 10701. 0. 0. 84. CMR72 4 163 1896. 10701. 2.23 2. 5. CMR72 4 164 1896. 10701. 3.78 0. 4. CMR72 4 165 1896. 10701. 4.70 1. 3. CMR72 4 166 1896. 10701. 5.80 -1. 4. CMR72 4 167 1954. 10757. 2.23 2. 2. CMR72 4 168 1954. 10757. 4.46 4. 70. CMR72 4 169 1954. 10757. 5.55 2. 19. CMR72 4 170 1977. 10780. 0. 0. 9. CMR72 4 171 1977. 10780. 2.23 2. 60. CMR72 4 172 1977. 10780. 4.28 2. 21. CMR72 4 173 1977. 10780. 4.70 1. 2. CMR72 4 174 1977. 10780. 5.41 3. 4. CMR72 4 175 1984. 10786. 0. 0. 54. CMR72 4 176 1984. 10786. 2.23 2. 16. CMR72 4 177 1984. 10786. 3.78 0. 2. CMR72 4 178 1984. 10786. 4.28 2. 3. CMR72 4 179 1984. 10786. 4.46 4. 1. CMR72 4 180 1984. 10786. 4.70 1. 11. CMR72 4 181 1984. 10786. 5.55 2. 13. CMR72 4 182 1991. 10793 0. 0. 23. CMR72 4 183 1991. 10793 2.23 2. 49. CMR72 4 184 1991. 10793 4.28 2. 9. CMR72 4 185 1991. 10793 4.70 1. 5. CMR72 4 186 1991. 10793 5.01 -3. 10. CMR72 4 187 2027. 10828. 0. 0. 24. CMR72 4 188 2027. 10828. 2.23 2. 37. CMR72 4 189 2027. 10828. 3.78 0. 2. CMR72 4 190 2027. 10828. 4.28 2. 22. CMR72 4 191 2027. 10828. 4.70 1. 2. CMR72 4 192 2027. 10828. 5.01 -3. 6. CMR72 4 193 2027. 10828. 5.41 3. 3. CMR72 4 194 2027. 10828. 5.80 -1. 3. CMR72 4 195 ENDDATA 179 CMR72 4 196 ENDSUBENT 4 CMR72 499999 SUBENT CMR72 5 0 CMR72 5 1 BIB 2 5 CMR72 5 2 REACTION 31P(P,GAMMA)32S CMR72 5 3 COMMENTS EXCITATION ENERGIES OF LEVELS IN 32S OBSERVED IN THE CMR72 5 4 PRESENT EXPERIMENT ARE GIVEN. EX = EXCITATION ENERGY CMR72 5 5 OF THE LEVEL. EX-ERR = ERROR IN EXCITATION ENERGY. CMR72 5 6 INFORMATION OBTAINED FROM TABLE 4 OF THE PAPER. CMR72 5 7 ENDBIB 5 CMR72 5 8 DATA 2 22 CMR72 5 9 EX EX-ERR CMR72 5 10 KEV KEV CMR72 5 11 2230.5 0.3 CMR72 5 12 3778.2 1.8 CMR72 5 13 4282.2 1.0 CMR72 5 14 4458.9 1.0 CMR72 5 15 4695.3 0.4 CMR72 5 16 5006.5 1.0 CMR72 5 17 5412.6 1.0 CMR72 5 18 5548.8 1.4 CMR72 5 19 5797.6 1.0 CMR72 5 20 6224.2 1.0 CMR72 5 21 6621.0 1.0 CMR72 5 22 6666.1 1.0 CMR72 5 23 6761.6 1.0 CMR72 5 24 6853.5 1.6 CMR72 5 25 7003.7 1.0 CMR72 5 26 7116.5 1.0 CMR72 5 27 7189.0 1.5 CMR72 5 28 7484.8 1.0 CMR72 5 29 7535.5 1.0 CMR72 5 30 7702.4 2.0 CMR72 5 31 7950.8 1.0 CMR72 5 32 8126.2 1.0 CMR72 5 33 ENDDATA 24 CMR72 5 34 ENDSUBENT 5 CMR72 599999 SUBENT CMR72 6 0 CMR72 6 1 BIB 1 13 CMR72 6 2 COMMENTS GAMMA-RAY DECAY BRANCHING FOR THE BOUND STATES IN CMR72 6 3 32S IS GIVEN. INFORMATION OBTAINED FROM TABLE 5. CMR72 6 4 EI = EXCITATION ENERGY OF THE INITIAL STATE IN 32S CMR72 6 5 FOR GAMMA-RAY TRANSITION. EF = ENERGY OF FINAL STATE. CMR72 6 6 J-PI-I = SPIN AND PARITY OF 32S INITIAL STATE FOR CMR72 6 7 GAMMA-RAY TRANSITION. J-PI-F = SPIN AND PARITY OF CMR72 6 8 FINAL STATE. NEGATIVE PARITY IS INDICATED BY A CMR72 6 9 NEGATIVE NUMBER. OTHERWISE PARITY IS POSITIVE. CMR72 6 10 B = BRANCHING RATIO. B-ERR IS ERROR IN BRANCHING CMR72 6 11 RATIO. WHEN INFORMATION IS NOT AVAILABLE OR IS CMR72 6 12 AMBIGUOUS, THE CORRESPONDING SPACE IS LEFT BLANK. CMR72 6 13 WHEN NO ERROR IN B IS PROVIDED VALUE IS ASSUMED TO CMR72 6 14 BE AN UPPER BOUND. PCT = PERCENT. CMR72 6 15 ENDBIB 13 CMR72 6 15 DATA 6 62 CMR72 6 17 EI J-PI-I EF J-PI-F B B-ERR CMR72 6 18 MEV NO-DIM MEV NO-DIM PCT PCT CMR72 6 19 2.23 2. 0. 0. 100. CMR72 6 20 3.78 0. 2.23 2. 100. CMR72 6 21 4.28 2. 0. 0. 88. 4. CMR72 6 22 4.28 2. 2.23 2. 12. 4. CMR72 6 23 4.46 4. 0. 0. 2. CMR72 6 24 4.46 4. 2.23 2. 100. CMR72 6 25 4.70 1. 0. 0. 39. 3. CMR72 6 26 4.70 1. 2.23 2. 61. 3. CMR72 6 27 4.70 1. 3.78 0. 0.5 CMR72 6 28 5.01 -3. 0. 0. 8. 5. CMR72 6 29 5.01 -3. 2.23 2. 92. 5. CMR72 6 30 5.41 3. 0. 0. 10. CMR72 6 31 5.41 3. 2.23 2. 90. 5. CMR72 6 32 5.41 3. 3.78 0. 20. CMR72 6 33 5.41 3. 4.28 2. 10. CMR72 6 34 5.55 2. 0. 0. 41. 5. CMR72 6 35 5.55 2. 2.23 2. 59. 5. CMR72 6 36 5.80 -1. 0. 0. 100. CMR72 6 37 5.80 -1. 2.23 2. 5. CMR72 6 38 6.22 -2. 0. 0. 2. CMR72 6 39 6.22 -2. 2.23 2. 100. CMR72 6 40 6.62 -4. 2.23 2. 3. 2. CMR72 6 41 6.62 -4. 4.46 4. 28. 5. CMR72 6 42 6.62 -4. 5.01 -3. 66. 5. CMR72 6 43 6.62 -4. 5.41 3. 3. 2. CMR72 6 44 6.67 0. 0. 6. CMR72 6 45 6.67 2.23 2. 50. CMR72 6 46 6.67 3.78 0. 50. CMR72 6 47 6.76 0. 0. 3. 2. CMR72 6 48 6.76 2.23 2. 25. CMR72 6 49 6.76 5.01 -3. 97. CMR72 6 50 6.85 0. 0. 10. CMR72 6 51 6.85 2.23 2. 20. CMR72 6 52 6.85 4.28 2. 100. CMR72 6 53 7.00 1. 0. 0. 1. CMR72 6 54 7.00 1. 2.23 2. 90. 5. CMR72 6 55 7.00 1. 3.78 0. 10. CMR72 6 56 7.00 1. 4.28 2. 8. CMR72 6 57 7.12 2. 0. 0. 4. 3. CMR72 6 58 7.12 2. 2.23 2. 92. 5. CMR72 6 59 7.12 2. 3.78 0. 5. CMR72 6 60 7.12 2. 4.28 2. 4. 3. CMR72 6 61 7.19 1. 0. 0. 40. 10. CMR72 6 62 7.19 1. 2.23 2. 60. 10. CMR72 6 63 7.48 0. 0. 70. 20. CMR72 6 64 7.48 2.23 2. 25. CMR72 6 65 7.48 3.78 0. 30. CMR72 6 66 7.48 4.28 2. 5. CMR72 6 67 7.54 0. 0. 0. 5. CMR72 6 68 7.54 0. 2.23 2. 6. CMR72 6 69 7.54 0. 4.70 1. 100. CMR72 6 70 7.70 2.23 2. 100. CMR72 6 71 7.95 0. 0. 2. CMR72 6 72 7.95 2.23 2. 5. CMR72 6 73 7.95 3.78 0. 15. CMR72 6 74 7.95 4.28 2. 10. CMR72 6 75 7.95 4.46 4. 6. CMR72 6 76 7.95 4.70 1. 8. CMR72 6 77 7.95 5.01 -3. 65. CMR72 6 78 8.13 1. 0. 0. 84. 5. CMR72 6 79 8.13 1. 2.23 2. 16. 5. CMR72 6 80 8.13 1. 4.28 2. 12. CMR72 6 81 ENDDATA 64 CMR72 6 82 ENDSUBENT 6 CMR72 699999 SUBENT CMR72 7 0 CMR72 7 1 BIB 1 6 CMR72 7 2 COMMENTS MEAN LIFETIMES OF BOUND LEVELS IN 32S MEASURED BY CMR72 7 3 DOPPLER SHIFT ATTENUATION METHOD ARE GIVEN. RESULTS CMR72 7 4 OBTAINED FROM TABLE 6 OF THE PAPER. EX = LEVEL CMR72 7 5 EXCITATION ENERGY. TAU = LEVEL MEAN LIFE. TAU-ERR = CMR72 7 6 ERROR IN LEVEL MEAN LIFE. IF NO ERROR IS GIVEN, VALUE CMR72 7 7 IS ASSUMED TO BE AN UPPER BOUND. FSEC = 10**(-15) SEC. CMR72 7 8 ENDBIB 6 CMR72 7 9 DATA 3 14 CMR72 7 10 EX TAU TAU-ERR CMR72 7 11 MEV FSEC FSEC CMR72 7 12 2.23 185. 75. CMR72 7 13 3.78 1200. 550. CMR72 7 14 4.28 36. 8. CMR72 7 15 4.70 230. 55. CMR72 7 16 5.01 350. 80. CMR72 7 17 5.41 95. 25. CMR72 7 18 5.55 100. 30. CMR72 7 19 5.80 8. 5. CMR72 7 20 6.22 55. 10. CMR72 7 21 6.62 420. 100. CMR72 7 22 6.67 22. 7. CMR72 7 23 6.85 95. 25. CMR72 7 24 7.00 5. CMR72 7 25 7.12 5. CMR72 7 26 ENDDATA 16 CMR72 7 27 ENDSUBENT 7 CMR72 799999 SUBENT CMR72 8 0 CMR72 8 1 BIB 1 11 CMR72 8 2 COMMENTS LEGENDRE POLYNOMIAL EXPANSION COEFFICIENTS USED TO CMR72 8 3 REPRESENT ANGULAR DISTRIBUTIONS ARE PROVIDED FOR CMR72 8 4 MEASURED GAMMA-RAY TRANSITIONS. MEASUREMENTS WERE CMR72 8 5 MADE A RESONANCES DEFINED BY INCIDENT PROTON ENERGY. CMR72 8 6 INFORMATION OBTAINED FROM TABLE 8 OF THE PAPER. CMR72 8 7 EP = PROTON ENERGY. EI = EXCITATION ENERGY OF INITIAL CMR72 8 8 STATE OF GAMMA-RAY TRANSITION. EF = EXCITATION ENERGY CMR72 8 9 OF FINAL STATE. A2 = LEGENDRE COEFFICIENT FOR P2 TERM CMR72 8 10 IN LEGENDRE EXPANSION. A2-ERR = ERROR IN A2. A4 = CMR72 8 11 LEGENDRE COEFFICIENT FOR P4 TERM IN LEGENDRE CMR72 8 12 EXPANSION. A4-ERR = ERROR IN A4. CMR72 8 13 ENDBIB 11 CMR72 8 14 DATA 7 14 CMR72 8 15 EP EI EF A2 A2-ERR A4 CMR72 8 16 A4-ERR CMR72 8 17 KEV MEV MEV NO-DIM NO-DIM NO-DIM CMR72 8 18 NO-DIM CMR72 8 19 888. 9.725 6.62 0.32 0.06 -0.11 CMR72 8 20 0.08 CMR72 8 21 888. 9.725 5.01 0.64 0.15 0.11 CMR72 8 22 0.18 CMR72 8 23 888. 6.62 5.01 0.31 0.14 0.08 CMR72 8 24 0.17 CMR72 8 25 888. 6.62 4.46 0.29 0.11 -0.07 CMR72 8 26 0.13 CMR72 8 27 1438. 10.258 6.62 0.42 0.02 -0.08 CMR72 8 28 0.04 CMR72 8 29 1438. 10.258 5.01 -0.51 0.11 -0.03 CMR72 8 30 0.14 CMR72 8 31 1438. 10.258 4.46 -0.07 0.03 0.39 CMR72 8 32 0.10 CMR72 8 33 1438. 6.62 5.01 0.27 0.02 0.13 CMR72 8 34 0.02 CMR72 8 35 1438. 6.62 4.46 0.30 0.03 -0.09 CMR72 8 36 0.04 CMR72 8 37 1583. 10.398 6.62 0.39 0.01 -0.09 CMR72 8 38 0.02 CMR72 8 39 1583. 10.398 5.01 0.04 0.03 -0.07 CMR72 8 40 0.03 CMR72 8 41 1583. 10.398 4.46 0.39 0.10 -0.16 CMR72 8 42 0.12 CMR72 8 43 1583. 6.62 5.01 0.32 0.02 0.19 CMR72 8 44 0.03 CMR72 8 45 1583. 6.62 4.46 0.40 0.08 -0.11 CMR72 8 46 0.09 CMR72 8 47 ENDDATA 32 CMR72 8 48 ENDSUBENT 8 CMR72 899999 SUBENT CMR72 9 0 CMR72 9 1 BIB 1 17 CMR72 9 2 COMMENTS STRENGTHS OF GAMMA-RAY TRANSITIONS BETWEEN BOUND CMR72 9 3 LEVELS IN 32S ARE GIVEN. RESULTS ARE OBTAINED FROM CMR72 9 4 TABLE 11 OF THE PAPER. EI = EXCITATION ENERGY OF CMR72 9 5 INITIAL LEVEL OF THE TRANSITION. EF = EXCITATION CMR72 9 6 ENERGY OF THE FINAL LEVEL. GAM(G) = GAMMA-RAY CMR72 9 7 WIDTH. GAM(G)-ERR = ERROR IN GAMMA-RAY WIDTH. CMR72 9 8 S(E1) = E1 TRANSITION STRENGTH. S(E1)-ERR = ERROR CMR72 9 9 IN E1 TRANSITION STRENGTH. S(E2) = E2 TRANSITION CMR72 9 10 STRENGTH. S(E2)-ERR = ERROR IN E2 TRANSITION CMR72 9 11 STRENGTH. S(E3) = E3 TRANSITION STRENGTH. S(E3)-ERR CMR72 9 12 = ERROR IN E3 TRANSITION STRENGTH. S(M1) = M1 CMR72 9 13 TRANSITION STRENGTH. S(M1)-ERR = ERROR IN M1 CMR72 9 14 TRANSITION STRENGTH. S(M2)-ERR = ERROR IN M2 CMR72 9 15 TRANSITION STRENGTH. BLANK ENTRIES APPEAR WHERE NO CMR72 9 16 INFORMATION IS GIVEN IN THE TABLE. W.U. = WEISSKOPF CMR72 9 17 UNITS OF TRANSITION STRENGTH. MILLI-EV = MILLI CMR72 9 18 ELECTRON VOLTS. CMR72 9 19 ENDBIB 17 CMR72 9 20 DATA 14 15 CMR72 9 21 EI EF GAM(G) GAM(G)-ERR S(E1) S(E1)-ERR CMR72 9 22 S(E2) S(E2)-ERR S(E3) S(E3)-ERR S(M1) S(M1)-ERR CMR72 9 23 S(M2) S(M2)-ERR CMR72 9 24 MEV MEV MILLI-EV MILLI-EV W.U. W.U. CMR72 9 25 W.U. W.U. W.U. W.U. W.U. W.U. CMR72 9 26 W.U. W.U. CMR72 9 27 2.23 0. 3.6 1.4 CMR72 9 28 13. 5. CMR72 9 29 CMR72 9 30 3.78 2.23 0.5 0.3 CMR72 9 31 12. 6. CMR72 9 32 CMR72 9 33 4.28 0. 16. 4. CMR72 9 34 2.3 0.5 CMR72 9 35 CMR72 9 36 4.28 2.23 2.2 0.9 CMR72 9 37 12. 6. 4000. 4000. CMR72 9 38 CMR72 9 39 4.46 2.23 3.1 0.9 CMR72 9 40 11. 3. CMR72 9 41 CMR72 9 42 4.70 0. 1.1 0.3 CMR72 9 43 51000. 13000. CMR72 9 44 CMR72 9 45 4.70 2.23 1.7 0.2 CMR72 9 46 0.7 0.7 400000. 150000. CMR72 9 47 CMR72 9 48 5.01 0. 0.15 0.10 CMR72 9 49 80. 50. CMR72 9 50 CMR72 9 51 5.01 2.23 1.7 0.4 12000. 3000. CMR72 9 52 CMR72 9 53 0.7 0.7 CMR72 9 54 5.41 2.23 6.2 1.7 CMR72 9 55 3.8 1.0 6000. 6000. CMR72 9 56 CMR72 9 57 5.55 0. 2.7 0.9 CMR72 9 58 0.10 0.03 CMR72 9 59 CMR72 9 60 5.55 2.23 3.9 1.2 CMR72 9 61 0.5 0.3 400000. 150000. CMR72 9 62 CMR72 9 63 5.80 0. 80. 50. 60000. 40000. CMR72 9 64 CMR72 9 65 CMR72 9 66 6.22 2.23 12. 2. 27000. 4000. CMR72 9 67 CMR72 9 68 1.1 0.4 CMR72 9 69 6.62 2.3 0.05 0.03 CMR72 9 70 2000. 1000. CMR72 9 71 CMR72 9 72 ENDDATA 51 CMR72 9 73 ENDSUBENT 9 CMR72 999999 ENDENTRY 9 CMR729999999