<strong>14</strong> C (Figs. 2 and 5) GENERAL (See also (86AJ01)). <strong>Nuclear</strong> models: (85KW02, 85MI23, 86GU1F, 87KI1C, 88FL1A, 88WO04, 89PO1K, 89SI1D, 89WO1E) Special states: (85BA75, 85GO1A, 86AN07, 87BL15, 87BL18, 87KI1C, 89AM01, 89RA17) Electromagnetic transitions and giant resonances: (84VA06, 85GO1A, 86ER1A, 87HO1L, 87KI1C, 87RA01, 89AM01, 89RA16, 89SP01) Astrophysical questions: (82WO1A, 86CO1R, 86HA2D, 87HA1E, 87MA1X, 87MA2C, 88AP1A, 88AP1B, 88BE1B, 89BO1M, 89GU1L, 89KA1K, 89ME1C, 89ST1D, 89WH1B, 90OE1C, 90TH1C) Applied work: (85BA2G, 85GO1R, 86CI1B, 86CS1B, 86DO1M, 86EF1A, 86HO1L, 86KI1J, 86KO2A, 86SR1B, 86SU1H, 87AR1N, 87BA2M, 87BA2N, 87BO1U, 87CU1E, 87DU1G, 87GA1E, 87GO1W, 87HE1F, 87HE1G, 87HO1J, 87JA1G, 87KI1I, 87KO1T, 87KR1O, 87KU1C, 87LO1E, 87MA2E, 87NA1N, 87NA1O, 87OE1A, 87OS1F, 87PO1K, 87RE1H, 87SE1D, 87SL1A, 87TA1K, 87VA1S, 88DO1D, 88EL1C, 88JU1B, 88PU1A, 88SU1E, 89LO<strong>14</strong>, 89MU1A, 90DO1C, 90SA1J) Complex reactions involving <strong>14</strong> C: (85AL1J, 85BA2G, 85BE40, 85BR1F, 85HO21, 85KA1E, 85KA1F, 85KA1G, 85KU24, 85KW03, 85PO12, 85PO11, 85PO<strong>14</strong>, 85si19, 85VI01, 86BA26, 86BI1A, 86CS1A, 86DE32, 86HA1B, 86IR01, 86ME06, 86PA1N, 86PI11, 86PO06, 86PO15, 86PR1B, 86SO10, 86UT01, 87BA38, 87BL04, 87BUZP, 87BU07, 87GU04, 87HE1H, 87IV01, 87NA01, 87PO1F, 87PO1L, 87PR1E, 87RI03, 87RU1C, 87RU1D, 87SH04, 87SN01, 87VI02, 87YA16, 88BA01, 88BE56, 88BL11, 88CA06, 88IV1C, 88JO1B, 88PR1B, 88RU01, 88SA19, 88SA35, 88SA1X, 88SH29, 89BA92, 89BR34, 89BU06, 89BU05, 89BU1H, 89BU1I, 89CI03, 89CI1C, 89FL1A, 89GIZV, 89GRZQ, 89GU1B, 89HO16, 89KI13, 89MA21, 89MA43, 89PO1I, 89PO18, 89PR02, 89PR06, 89PR1F, 89SA1L, 89SA10, 89SA45, 89SH37, 89TE02, 89YO02, 90AR1E, 90BU09, 90BU13, 90HU02, 90OG01, 90SH01, 90WE01, 90YA02) Muon and neutrino capture and reactions (See also reaction 32 in (86AJ01).): (85KO39, 89MU1G, 90KO10) Pion and kaon capture and reactions (See also reactions 15, 23, 31 and 32.): (85AL15, 85BA1A, 85CH1G, 85KO1Y, 85TU1B, 86BA1C, 86BE1P, 86BO1N, 86CE04, 86DY02, 86ER1A, 86FE1A, 86FO06, 86GE06, 86GI06, 86MA1C, 86SI11, 86SU18, 86WU1D, 87BA2F, 87BL15, 87DOZY, 87GI1C, 87JO1B, 87KA39, 87KO1Q, 87MI02, 87ROZY, 88BA2D, 88BA2R, 88HA37, 88KO1V, 88LE1G, 88MI1K, 88OH04, 88OS1A, 88PA06, 88RO1M, 88TI06, 88YU04, 89CH31, 89DI1B, 89DO1K, 89JO1B, 89LE11, 89SI1B, 89SI1D, 90HAZV) Hypernuclei: (84ZH1B, 86AN1R, 86DA1B, 86FE1A, 86KO1A, 86MA1C, 86WU1D, 87MI1A, 87PO1H, 88MA1G, 89BA92, 89BA93, 89DO1K, 89GE10) Other topics: 90YA01) (85AN28, 85MA56, 86AN07, 87AJ1A, 88FL1A, 89AJ1A, 89DE1O, 89PO05, 8
Table <strong>14</strong>.3: <strong>Energy</strong> <strong>Levels</strong> <strong>of</strong> <strong>14</strong> C a E x in <strong>14</strong> C J π ; T τ or Γ c.m. Decay Reactions (MeV ± keV) g.s. 0 + ;1 τ 1/2 = 5730 ± 40 y β − 1, 3, 4, 6, 7, 8, 9, 10, 11, 12, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27, 28, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39 6.0938 ± 0.2 b 1 − τ m < 10 fs γ 3, 4, 6, 7, 8, 12, 15, 16, 18, 20, 22, 23, 26, 35, 38 6.5894 ± 0.2 b 0 + 4.3 ± 0.6 ps γ 3, 4, 6, 8, 12, 16 6.7282 ± 1.3 b 3 − 96 ± 11 ps γ 3, 4, 6, 7, 8, 9, 15, 16, 18, 20, 22, 23, 24, 26, 28, 35, 38 |g| =0.272 ± 0.007 6.9026 ± 0.2 b 0 − 36 ± 4fs γ 3, 4, 7, 8, 12, 16, 18, 22 7.0120 ± 4.2 b 2 + 13 ± 2fs γ 3, 4, 6, 7, 8, 15, 16, 18, 22, 23, 24, 26, 38, 39 7.34<strong>14</strong> ± 3.1 b 2 − 160 ± 60 fs γ 3, 4, 7, 8, 15, 16, 18, 20, 22, 26, 35, 38 8.3179 ± 0.8 2 + Γ=3.4 ± 0.7 keV γ, n 3, 4, 6, 7, 8, 9, 12, 13, 15, 16, 22, 23, 26, 32, 34, 35, 39 9.746 ± 7 0 + 8, 38 9.801 ± 6 3 − 45 ± 12 γ, n 3, 6, 7, 8, 13, 15, 16, 22, 26, 38 10.425 ± 5 2 + n 3, 6, 8, 13, 15, 16, 22, 26, 38 10.449 ± 7 ≥ 1 n 3, 6, 7, 8, 13, 15, 38 10.498 ± 4 (3 − ) 26 ± 8 n 3, 7, 8, 13, 15, 16, 23, 38 10.736 ± 5 4 + 20 ± 7 3, 6, 7, 8, 9, 15, 16, 26, 32 11.306 ± 15 1 + 46 ± 12 γ, n 3, 6, 13, 21, 22, 26, 38 11.395 ± 8 1 − 22 ± 7 n 3, 6, 7, 8, 16, 26 (11.5) 1 − + 2 − broad n 13 9
- Page 1 and 2: 14 Revised Manuscript 06 November 2
- Page 3 and 4: 14 He (Not illustrated) 14 He has n
- Page 5 and 6: Figure 1: Energy levels of 14 B. Fo
- Page 7: 5. 14 C( 14 C, 14 N) 14 B Q m = −
- Page 11: a See also Tables 14.8 here and in
- Page 14 and 15: a (73AJ01): E( 6 Li) = 20 MeV. See
- Page 16 and 17: Table 14.5: States in 14 Cfrom 11 B
- Page 18 and 19: for 14 C*(8.32) is 215 +84 −35 me
- Page 20 and 21: correspond to single states, and th
- Page 22 and 23: 19. 13 C( 13 C, 12 C) 14 C Q m =3.2
- Page 24 and 25: Table 14.9: States of 14 Cfrom 14 C
- Page 26 and 27: The photon spectrum from stopped pi
- Page 28 and 29: Table 14.10: Energy Levels of 14 N
- Page 30 and 31: Table 14.10: Energy Levels of 14 N
- Page 32 and 33: Table 14.10: Energy Levels of 14 N
- Page 34 and 35: a See also Tables 14.15 and 14.13,
- Page 36 and 37: Table 14.11: Radiative decays in 14
- Page 38 and 39: Table 14.11: Radiative decays in 14
- Page 40 and 41: Table 14.12: Resonances in 10 B+α
- Page 42 and 43: functions for the transitions to 8
- Page 44 and 45: Table 14.13: Resonances in 12 C+d a
- Page 46 and 47: Table 14.14: States of 14 Nfrom 12
- Page 48 and 49: Table 14.15: States in 14 Nfrom 10
- Page 50 and 51: Table 14.16: Levels of 14 Nfrom 13
- Page 52 and 53: Observed resonances are displayed i
- Page 54 and 55: For searches for short-lived neutra
- Page 56 and 57: a See also Table 14.18 in (81AJ01)
- Page 58 and 59:
Angular distributions have been stu
- Page 60 and 61:
Form factors have been determined a
- Page 62 and 63:
46. 14 N(d, d) 14 N Angular distrib
- Page 64 and 65:
56. (a) 14 N( 24 Mg, 24 Mg) 14 N (b
- Page 66 and 67:
Table 14.21: States of 14 Nfrom 15
- Page 68 and 69:
14 O (Figs. 4 and 5) GENERAL (See a
- Page 70 and 71:
Table 14.22: Energy levels of 14 O
- Page 72 and 73:
structure near 23 MeV is also obser
- Page 74 and 75:
Figure 5: Isobar diagram, A=14. The
- Page 76 and 77:
78MO08 S. Mordechai, H.T. Fortune,
- Page 78 and 79:
84PE1B Peterson et al, Nucl. Phys.
- Page 80 and 81:
85HO21 E. Hourani, M. Hussonnois, L
- Page 82 and 83:
85WA22 S. Wald, S.B. Gazes, C.R. Al
- Page 84 and 85:
86CU02 B. Cujec, B. Dasmahapatra, Q
- Page 86 and 87:
86KO08 P. Kozma and P. Bem, Czech.
- Page 88 and 89:
86SH25 B. Shivakumar, D. Shapira, P
- Page 90 and 91:
87AJ02 F. Ajzenberg-Selove, Nucl. P
- Page 92 and 93:
87DOZY B. Doyle, R. Wittmann and N.
- Page 94 and 95:
87KU1C Kubozoe and Watanabe, Nucl.
- Page 96 and 97:
87ROZY S.H. Rokni, H.W. Baer, J.D.
- Page 98 and 99:
88AN19 A. Antonov, V.A. Vesna, Yu.M
- Page 100 and 101:
88GO12 M. Gonin, J.P. Coffin, G. Gu
- Page 102 and 103:
88OS1A Oset et al, AIP Conf. Proc.
- Page 104 and 105:
88WO04 A.A. Wolters, A.G.M. van Hee
- Page 106 and 107:
89CA15 S. Cavallaro, S.Z. Yin, G. P
- Page 108 and 109:
89GU28 N. Guessoum and R.J. Gould,
- Page 110 and 111:
89PO07 J. Pouliot, Y. Chan, A. Daca
- Page 112 and 113:
89VA21 D. Vartsky, M.B. Goldberg, G
- Page 114 and 115:
90HA46 D. Harley, B. Müller and J.
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90WIZV 90YA01 90YA02 90YE02 HA80F V