48TI 47TI(N,G) E=THERMAL 1989CO01,1984RU06 48TI H TYP=UPD$AUT=T. Burrows$CUT=16-Jun-1995$ 48TI H TYP=FUL$AUT=T. W. BURROWS$CIT=NDS 68,1 (1993)$CUT=4-Jan-1993$ 48TI D 1995: REPLACED 1993AuZZ WITH 1993Au07. ADDED MISSING OLD REFERENCE 48TI c 1969Te06: measured |g's, |g|g-coin, and |g|g(|q); Ge(Li),NaI 48TI c 1984Ru06: measured |g's in singles (0-2.5 MeV) and pair spectrometer 48TI2c arrangement (1.8-11.0 MeV); nuclear orientation (6.9% {i5} polarized 48TI3c target; 95% polarized beam (Ge(Li) at 0|' and 90|'); and circular 48TI4c polarization (2 polarimeters on opposite sides of target) 48TI c 1989Co01: measured |g|g(|q) 48TI c All information is from 1984Ru06, except as noted. 1969Te06 found no 48TI2c correlation (coefficient=0.2) between primary reduced |g intensities 48TI3c and L=1 transition strengths observed in (d,p). Decay scheme 48TI4c constructed with the aid of the Ritz combination and previous 48TI5c experiments. Others: 1969Fe08 and 1969TrZX. See also 1985Al14. 48TI cL E From a least-squares fit to E|g's. Uncertainties are 48TI2cL statistical; systematic uncertainty is 3.2 ppm 48TI cL J From the adopted levels, except for the capture state. 48TI2cL Contributing arguments from this experiment are given as footnotes or 48TI3cL comments 48TI cL J(A) (2 to 4) from nuclear orientation and circular polarization 48TI cL J(B) 2 from nuclear orientation and circular polarization 48TI cL J(D) (2,3) from nuclear orientation and circular polarization 48TI cL J(E) (1 to 4) from nuclear orientation and circular polarization 48TI cL E(F),J(G) Energy from 1993Au07; others: 11626.50 {i12} (1980Is02) 48TI2cL and 11626.66 {i4} (1984Ru06) (held fixed in the least-squares fit to 48TI3cL the E|g's). J|p from thermal capture on 5/2- target 48TI cG A strength of |SI|gE|g=(0.824 {i4})Q was placed out of a 48TI2cG total observed strength of |SI|gE|g=(0.868 {i4})Q. 26.2% {i4} of the 48TI3cG primary strength was found to be missing, assuming that the total 48TI4cG strength to the g.s. is 100% (1984Ru06) 48TI cG Coincidences shown on the drawing are from 1969Te06 or 48TIxcG 1989Co01 48TI cG E Calculated by 1985Al14 from transition energies in 1984Ru06 48TI2cG with correction for recoil. Uncertainties are statistical; the 48TI3cG systematic uncertainties are 2.6 ppm for E|g<1800 keV from the 48TI4cG {+198}Au standard and 3.2 ppm for the rest from the {+15}n neutron 48TIxcG binding energy 48TI N 1.00 5 48TI cN NR estimated systematic uncertainty 48TI cN SIGMAN=1.7 2 48TI cN NR$normalized assuming I|g(g.s.)=100. 48TI PN C3 48TI2PN RI PER 100 N-CAPTURES 48TI cG RI Photons per 100 captures; statistical uncertainties are 48TI2cG given. See 1984Ru06 for the branching ratios 48TI cG M(A) From |g|g(|q) (1969Te06) 48TI cG M(B),MR(D)$From |g|g(|q) (1989Co01) 48TI cG RI(E) Discrepant with I|g(1701|g)/I|g(2629|g)=0.22 {i6} and 48TI2cG adopted I|g(2285|g)/I|g(3597|g)=0.44 {i13} 48TI cG RI(F) 37% contribution from 2- and 63% contribution from 3- 48TI2cG from |g|g(|q) (1969Te06) 48TI G 1750.49 4 0.88 3 48TI G 2463.3512 0.31420 48TI G 2885.1 3 0.33 5 48TI G 3121.4 3 0.26 4 48TI G 3239.5818 0.37 3 48TI G 3504.9421 0.31 3 48TI G 3548.8 4 0.17 3 48TI G 3590.9 6 0.14 3 48TI G 3714.3 3 0.18 3 48TI G 3843.2 3 0.18924 48TI G 3886.5 3 0.21223 48TI G 3973.8322 0.24423 48TI G 4016.60 9 0.75 3 48TI G 4274.8613 0.44224 48TI G 4280.4821 0.26623 48TI G 4327.8 4 0.13221 48TI G 4379.7 6 0.08219 48TI G 4429.1 3 0.14019 48TI G 4452.3 4 0.35 4 48TI G 4455.6 5 0.18 4 48TI G 4492.6 4 0.09017 48TI G 4499.5410 0.39321 48TI G 4517.4 8 0.04316 48TI G 4527.6119 0.18518 48TI G 4631.1020 0.27420 48TI G 4697.9 5 0.09618 48TI G 4805.9822 0.26521 48TI G 4956.0 3 0.17619 48TI G 5064.87 9 0.82425 48TI G 5129.2 8 0.06417 48TI G 5174.9316 0.32018 48TI G 5305.9515 0.41922 48TI G 5315.3 4 0.4712 48TI G 5372.6 5 0.08517 48TI G 5457.4 5 0.10717 48TI G 5484.9 5 0.10317 48TI G 5509.5125 0.47 6 48TI G 5710.4 5 0.09017 48TI G 5803.3 3 0.15217 48TI G 5823.0917 0.32318 48TI G 5966.0 6 0.09418 48TI G 6039.3719 0.31520 48TI G 6103.8721 0.35023 48TI G 6634.6 7 0.11122 48TI L 0.0 0+ 48TI L 983.527 4 2+ 48TI cL J (1 to 3) from nuclear orientation and CP 48TI G 983.517 4 95.518 Q C 48TIF G FLAG=A 48TI L 2295.638 6 4+ 48TIF L FLAG=A 48TI G 1312.096 5 32.4 8 Q 48TIF G FLAG=B 48TI L 2421.040 9 2+ 48TI cL J 1 to 3 from |g|g(|q) (1969Te06) 48TIF L FLAG=B 48TI G 1437.48710 22.5 6 D+Q +0.10 4 C 48TIF G FLAG=BD 48TI G 2420.90 4 1.22 5 48TI L 2997.21 16 0+ 48TI G 2013.6616 0.23320 48TI L 3223.939 9 3+ 48TIF L FLAG=D 48TI G 802.87 6 0.32316 48TI G 928.29010 2.26 4 48TI G 2240.37517 7.1225 D+Q C 48TI cG MR +2.4 {i7} or +0.23 {I+12-9} (1989Co01) 48TIF G FLAG=B 48TI L 3239.752 8 4+ 48TIF L FLAG=A 48TI G 944.104 6 7.7915 48TI L 3333.25 3 6+ 48TI G 1037.59925 0.90924 48TI L 3358.816 14 3- 48TI G 1063.19 5 0.71 3 48TI G 2375.21117 6.8825 48TI L 3370.851 23 2+ 48TI G 2387.24925 2.7410 D+Q 0.5 LT C 48TIF G FLAG=BD 48TI G 3370.9613 0.52 3 48TI L 3616.810 19 2+ 48TI cL J 2,4 from |g|g(|q) (1969Te06) 48TIF L FLAG=B 48TI G 1195.83 6 0.74 3 48TI G 2633.20 3 9.3 3D+Q -0.10 5 C 48TIF G FLAG=BD 48TI G 3616.8 8 0.10 4 48TI L 3699.41 8 1- 48TI G 2715.8113 0.85 6 48TI G 3699.1112 0.57 3 48TI L 3738.54 11 1+ 48TI G 2756.5 7 0.38 9 48TI G 3738.3524 0.60 6 48TI L 3782.450 15 3-,4- 48TIF L FLAG=A 48TI G 423.629 9 2.53 3 48TI cG M,MR D+Q, -0.24 {i14} or |d<-3.7 if J=4 (1989Co01) 48TI G 1486.82 3 1.05 3 48TI L 3802.80 8 2- 48TI G 2819.0813 0.74 5 48TI L 3852.25 3 3- 48TIF L FLAG=E 48TI G 1556.57 5 0.79 3 48TI G 2868.59 4 3.2912 48TI L 4035.133 14 2+ 48TIF L FLAG=B 48TI G 811.19817 1.26 3 48TI G 1614.04118 2.85 8 48TI L 4074.494 18 2+ 48TI G 834.73617 1.22 3 48TI G 3090.82 6 1.79 6 48TI G 4075.1 5 0.29 7 48TI L 4196.86 3 1 TO 4 48TIF L FLAG=E 48TI G 458.4516 0.21 4 48TI G 972.91 3 0.77622 48TI G 4196.6313 0.49425 48TI L 4205.3 4 1,2 48TI G 4204.7 5 0.10120 48TI L 4387.680 17 2+,3,4+ 48TIF L FLAG=A 48TI G 2092.00718 2.20 7 48TI G 3403.83 7 2.58 7 48TI L 4457.440 10 3+ 48TI cL J 3 from nuclear orientation and CP. 2,3 from |g|g(|q) 48TI2cL (1969Te06) 48TI G 840.66 3 0.60218 48TI G 1086.51 8 0.37021 48TI G 1233.3312 0.19616 48TI G 2036.34911 6.3321 ? 48TI G 2161.75912 7.5 3 48TI G 3473.90 9 4.2 3D+Q C 48TI3 G MR GE +0.10 LE +0.13 48TIF G FLAG=BD 48TI L 4580.70 6 3- 48TI G 1221.81 8 0.31617 48TI G 2285.4119 0.35 3 48TIF G FLAG=E 48TI G 3596.7617 0.41 3 48TI L 4719.119 18 (1 TO 4)+ 48TI G 1479.33917 1.55 4 48TI G 1495.5321 0.71025 48TI L 4757.73 10 LE 4 48TI G 1140.9410 0.66 7 48TI G 3774.8 6 0.13 3 48TI L 4783.3 1 2,3,4 48TI G 2486.4 5 0.28 7 48TI G 3799.6412 0.56 3 48TI L 4792.27 5 0+ TO 3(-) 48TI G 1092.3 3 0.10517 48TI G 2371.18 8 0.90 4 48TI G 3808.58 7 1.10 4 48TI L 4794.27 12 2,3,4 48TI G 2498.4414 0.81 7 48TI G 4793.5 4 0.11919 48TI L 4910.58 5 0- TO 4 48TI G 1293.71 6 0.49722 48TI G 1539.6318 0.25 3 48TI G 1686.63 9 0.33518 48TI G 2489.7 4 0.30 7 48TI G 4911.8 8 0.06919 48TI L 4924.88 12 2+,3,4+ 48TI G 1700.8916 0.20017 48TIF G FLAG=E 48TI G 2629.1 3 0.36 6 48TI L 4940.05 13 2+,3+,4+ 48TI G 2644.5 4 0.23 5 48TI G 3956.1716 0.34424 48TI L 5145.81 4 4+ 48TI cL J (3,4) from nuclear orientation and CP 48TI G 1906.08 9 0.50 3 48TI G 1921.6322 0.9716 48TI G 2725.7 5 0.21 5 48TI G 2850.0112 0.84 6 48TI L 5157.70 13 4+ 48TI cL J (2,3) from nuclear orientation and CP discrepant 48TI G 1933.9 3 0.6214 48TI L 5356.22 11 (2,3,4) 48TI G 1158.7 3 0.22 4 48TI G 4372.5615 0.34121 48TI L 5490.78 13 2+ 48TI G 1790.7 3 0.15 3 48TI G 3070.4 3 0.22 4 48TI L 5619.58 7 2+ 48TIF L FLAG=E 48TI G 2395.6211 0.37722 48TI G 3198.4420 0.37 4 48TI L 5640.00 3 1+ 48TI cL J (1 to 3) from nuclear orientation and CP 48TI G 1182.56 5 0.48619 48TI G 4655.8 6 0.17 4 48TI G 5639.910 0.4 5 48TI L 5888.55 5 1 TO 4 48TI G 2085.6716 0.9115 48TI G 2517.6224 0.44 6 48TI G 3467.3621 0.8712 48TI G 4904.4217 0.30820 48TI L 6042.46 4 1 TO 4 48TIF L FLAG=D 48TI G 1967.7823 0.8314 48TI G 5058.5813 0.43521 48TI L 6054.54 20 0- TO 4 48TI G 3633.3825 0.24 3 48TI G 5070.2 5 0.12619 48TI L 6240.4 3 4,5- 48TI G 2907.7 4 0.21 4 48TI L 6313.74 21 4,5- 48TI G 2980.4 3 0.23 4 48TI L 6365.14 8 2 TO 5 48TI G 1572.4117 0.16916 48TI G 4069.4710 0.68 3 48TI L 6406.17 10 1 TO 5 48TI G 2553.7 3 0.35 6 48TI L 6490.46 7 2,3,4 48TI G 2687.5211 0.49 3 48TI G 3252.4 8 0.08 3 48TI G 5506.4 7 0.16 5 48TI L 6541.63 8 0- TO 4 48TI G 5558.1 3 0.45 4 48TI L 6626.53 13 0- TO 3 48TI G 2888.9 4 0.22 5 48TI L 6707.77 17 2 TO 5- 48TI G 3483.5 3 0.21 3 48TI G 4411.1 3 0.20722 48TI L 6797.0 3 1 TO 5- 48TI G 3573.9 6 0.09 3 48TI L 6827.29 20 2,3,4 48TI G 2108.7 3 0.5011 48TI G 5843.7 5 0.10117 48TI L 6898.3 2 1,2 48TI G 3901.4 7 0.07522 48TI G 5912.310 0.05517 48TI L 6957.1 3 1 TO 5- 48TI G 3104.4 4 0.17 4 48TI G 4536.0 4 0.08717 48TI L 6976.31 18 0- TO 4 48TI G 1620.0518 0.36 4 48TI G 2941.0 4 0.4211 48TI L 7060.52 18 0- TO 3 48TI G 3361.1620 0.32 3 48TI L 7358.98 6 1,2,3 48TIF L FLAG=D 48TI G 3620.3 3 0.31 4 48TI G 4134.8523 0.37 4 48TI G 4937.6 4 0.27 5 48TI G 6374.7 5 0.19 3 48TI L 7541.58 7 2 TO 5- 48TI G 3344.66 9 0.87 4 48TI G 4184.515 0.03219 48TI G 4302.6 4 0.12022 48TI G 4316.8 5 0.10822 48TI L 7574.08 18 0- TO 5- 48TI G 3186.3522 0.31 4 48TI L 7616.13 9 1,2,3 48TI G 2858.8 3 0.31 5 48TI G 3763.7 3 0.17 3 48TI G 3876.8 3 0.31 5 48TI G 3916.8 6 0.13 3 48TI L 11626.659 152-,3- S 48TIF L FLAG=FG 48TI cL E$11626.59 4 from 95Au04. 48TI2cL Observed deexcitation intensity is 74% of g.s. feeding. 48TI G 4010.3311 0.58 3 48TI G 4052.5 3 0.16922 48TI G 4085.0612 0.48024 48TI G 4267.47 6 1.34 3 48TI G 4566.3 3 0.29 3 48TI G 4649.9 5 0.10619 48TI G 4669.0 7 0.09623 48TI G 4728.0621 0.26220 48TI G 4799.8 3 0.21020 48TI G 4829.7 3 0.20122 48TI G 4917.6 3 0.16919 48TI G 4999.9714 0.38220 48TI G 5084.76 8 0.63821 48TI G 5135.89 8 0.70722 48TI G 5220.1611 0.47619 48TI G 5261.2 3 0.27 3 48TI G 5312.6 3 0.7312 48TI G 5387.3 6 0.11 3 48TI G 5571.5 4 0.16724 48TI G 5583.84 4 3.68 6 48TI G 5737.71 5 1.60 3 48TI G 5986.26 3 2.51 4 48TI G 6006.7311 0.91 3 48TI G 6135.5017 0.36420 48TI G 6269.8520 0.68 6 48TI G 6468.5315 0.94 5 48TI G 6480.39 5 4.08 7 48TI G 6685.6 3 0.20821 48TI G 6701.1824 0.34524 48TI G 6715.5011 0.76 3 48TI G 6831.0 3 0.8214 48TI G 6834.1115 1.7714 48TI G 6842.7320 0.35321 48TI G 6906.97 6 1.36 3 48TI G 7045.3212 0.49019 48TI G 7168.70 3 17.0820 C 48TI G 7238.40 4 3.61 5 48TI G 7419.6 8 0.11 3 48TI G 7429.23 7 0.84819 48TI G 7590.81 5 3.32 5 48TI G 7773.65 6 1.23025 48TI G 7843.52 4 2.48 3 48TI G 7885.6 9 0.08013 48TI G 7926.4 4 0.11914 48TI G 8009.10 4 5.82 8 C 48TI G 8255.2014 0.44318 48TI G 8267.3 3 0.31 4 48TI G 8386.14 6 1.21621 48TI G 8401.8812 0.36412 48TI G 9204.69 6 6.48 9 C 48TI G 9330.0513 0.29710 48TI G 10641.9212 1.71 3 C 48TIF G FLAG=F