105PD 105AG EC DECAY (41.29 D) 1996ME17,1970KA13 19NDS 202002
105PD H TYP=FUL$AUT=S. LALKOVSKI, J. TIMAR and Z. ELEKES$CIT=NDS 161, 1 (2019)$
105PD2 H CUT=1-Apr-2019$
105PD DG CC$ FROM BrIcc v2.2b (20-Jan-2009) 2008Ki07, "Frozen Orbitals" appr.
105PD c 1996Me17: Facility: LNL ICT accelerator; Source: from (n,|g) reactions
105PD2c on 50-100~mg thick target enriched to 82.09% in {+106}Cd. Neutron flux=
105PD3c 6x10{+12} n/sec in 4|p from {+2}H({+3}H,{+4}He)n reaction; Detectors:
105PD4c one large Ge(Li) and one small Ge(Li) x-ray detector; Measured: |g,
105PD5c E|g, I|g; Deduced: {+105}Pd level scheme, log| {Ift}, J
105PD c 1983Si08: Facility: AERE, Harawell Tandem Accelerator; Source: from
105PD2c {+103}Rh(|a,2n), E(|a)=28~MeV; Detectors: one Ge(Li), one NaI(Tl);
105PD3c Measured: |g, |g|g, |g|g(|q), E|g, I|g; Deduced: |d, Mult., {+105}Pd
105PD4c level scheme
105PD c 1970Ka13: Facility: Tokyio Institute of Technology cyclotron; Source:
105PD2c {+105}Ag, chemically separated from {+nat}Pd(p,2n) and {+106}Pd(p,2n)
105PD3c and mounted on 10 |mm Pt and 2 |mm Ni foils; Detectors: |b-spectrometer
105PD4c with |s=0.013% for 662-keV line, one proportional gas counter, and one
105PD5c Si(Li) detector; Measured: |g, |b, Ice, I|g, E{-|b}, E|g; Deduced:
105PD6c level scheme, |d
105PD c 1981Al19: Facility: KFZ Karlsruhe cyclotron; Soruce: chemically
105PD2c separated from (|a,2n) on natural Rh and (d,2n) on enriched in {+105}Pd
105PD3c target and beam energies E(|a)=50~MeV, E(d)=15~MeV. Measurements taken
105PD4c 6 weeks after irradiation to eliminate contribution from {+105m}Ag;
105PD5c Detectors: three large-volume plannar Ge detectors, two cooled pure NaI
105PD6c detectors; Measured: |g, |g|g, |g|g(|q), E|g, I|g; Deduced: level
105PD7c scheme, g-factors, T{-1/2}
105PD c 1977Ba32: Source: from {+105}Pd(p,n) reaction with E(p)=6.7~MeV and
105PD2c target enriched to 94% in {+105}Pd; Detectors: one Ge(Li), one NaI(Tl);
105PD3c Measured: |g, |g|g(|q), E|g, I|g; Deduced: |d, {+105}Pd level scheme
105PD c 1970Sc10: Facility: ISOLDE synchro-cyclotron; Beam: E(p)=600~MeV;
105PD2c Target: Sn; Source: mass-separated {+105}Cd. Measurements perfofrmed
105PD3c few days after irradiation; Detectors: on-line separator, one planar
105PD4c Ge(Li), one plastic (Pilot |b) and one NaI(Tl); Measured: |g, |g(t),
105PD5c E|g, I|g; Deduced: T{-1/2}
105PD c Others: 1984BeZQ, 1979Be66, 1979BeYM, 1978Ve04, 1976BaYL, 1976JaZU,
105PD2c 1975BeYC, 1974ArZY, 1973Se20, 1973ThZL, 1972Be67, 1972Bf01, 1971BeWF,
105PD3c 1971BeWG, 1971RiZH, 1970BlZT, 1969Ho36, 1969Ka02, 1969McZY, 1968An14,
105PD4c 1968Ri10
105PD cL E$From a least-squares fit to E|g. |DE|g=1~keV adopted by the
105PD2cL evaluators
105PD cL J$From the adopted levels
105PD cL J(A)$Possible member of the 2{++}~#|nd{-5/2} multiplet
105PD cG E,RI$From 1996Me17
105PD cG M,MR$Unless otherwise noted from 1983Si08, based on |g|g(|q) from DCO
105PD2cG measurments
105AG P 0.0 1/2- 41.29 D 7 1347 5
105PD N 0.042 4 1.0 1.0
105PD cN NR$I{-|b+}= 8.5|*10{+-6}~{I14} in 1967Pi03,
105PD2cN |e/I{-|b+}=2.7|*10{+3}~{I202} from theory and
105PD3cN (100-I{-|b+|e})/I(|g+ce)(g.s.)
105PD L 0.0 5/2+
105PD E 1347 5 1 AP 9.9 AP 1 AP 1U
105PDS E CK=0.8586$CL=0.11331 4$CM+=0.027677 9
105PD L 280.5 4 3/2+ A
105PD cL $g=-0.049~{I12} from IPAC in 1981Al19, assuming T{-1/2}=67 ps {I12}
105PD E 1.2 4 8.82 15 1.2 4
105PDS E CK=0.8627$CL=0.11045 2$CM+=0.026859 5
105PD G 280.54 744 M1+E2 +0.143 7 0.0238
105PDS G KC=0.0207 3$LC=0.00249 4$MC=0.000469 7$NC+=7.89E-5 12
105PDS G NC=7.89E-5 12
105PD cG M$A{-22}=0.156 {I8}, A{-44}=0.031 {I9} (1983Si08)
105PD cG MR$0.178~{I14} in 1983Si08
105PD cG $|a(K)exp=0.0209~{I13} (1970Ka13)
105PD L 306.3 7 7/2+
105PD E 0.136 14 9.74 5 0.136 14 ?
105PDS E CK=0.8626$CL=0.11054 2$CM+=0.026885 6
105PD G 306.30 18.3 M1+E2 +0.055 2 0.0188
105PDS G KC=0.01640 23$LC=0.00196 3$MC=0.000368 6$NC+=6.20E-5 9
105PDS G NC=6.20E-5 9
105PD cG M$A{-22}=-0.064 {I17}, A{-44}=-0.081 {I24} (1983Si08); Other:
105PD2cG A{-22}=-0.200~{I33}, A{-44}=0.043~{I71} (1977Ba32)
105PD cG M$|a(K)exp=0.0142~{I14} (1970Ka13)
105PD cG MR$0.02~{I4} (1983Si08), -0.39~{I+13-6} from |g|g(|q) in 1977Ba32
105PD L 319.2 5 5/2+ A
105PD cL $g=+38~{I8} from IPAC in 1981Al19, assuming T{-1/2}=38~{I2} ps
105PD E 0.19 10 10.17 23 0.19 10 1U?
105PDS E CK=0.8558$CL=0.11579 6$CM+=0.02838 2
105PD G 38.77 0.13 M1(+E2) 24 18
105PDS G KC=12 7$LC=10 10$MC=1.9 18$NC+=0.3 3
105PDS G NC=0.3 3
105PD G 319.24 106 M1+E2 +0.103 8 0.01697
105PD3 G EKC=0.014 9 (1970KA13)
105PDS G KC=0.01481 21$LC=0.001769 25$MC=0.000332 5$NC+=5.60E-5 8
105PDS G NC=5.60E-5 8
105PD cG M$A{-22}=-0.157 {I8}; A{-44}=0.026 {I11} (1983Si08)
105PD cG MR$Also, -0.007~{I20} (1983Si08),-0.16~{I3} from |g|g(|q) in 1977Ba32;
105PD2cG +0.137 (9) from |g|g(|q) in 1981Al19;
105PD L 344.6 5 1/2+ 1.01 NS 5
105PD cL T$from 618|g-344|g(t) and 22X-344|g(t) in 1970Sc10; Others: 0.88 ns
105PD2cL {I5} in 1974Be71, 0.801 ns {I64} in 1969Ka02
105PD E 67 7 7.01 5 67 7
105PDS E CK=0.8624$CL=0.11069 2$CM+=0.026927 6
105PD G 64.072 268 M1(+E2) -0.025 30 1.354 23
105PD3 G EKC=1.17 7 (1970KA13)
105PDS G KC=1.175 19$LC=0.147 5$MC=0.0276 9$NC+=0.00463 14
105PDS G NC=0.00463 14
105PD cG MR$from |g|g(|q) in 1981Al19
105PD G 344.61 1000 E2 0.0188
105PD3 G EKC=0.0163 10 (1970KA13)
105PDS G KC=0.01611 23$LC=0.00219 3$MC=0.000413 6$NC+=6.80E-5 10
105PDS G NC=6.80E-5 10
105PD L 442.3 6(7/2)+ A
105PD E 0.27 3 9.32 5 0.27 3
105PDS E CK=0.8618$CL=0.11113 3$CM+=0.027051 8
105PD G 442.2 11.4 M1+E2 -0.23 6
105PDS G CC=0.00756 11$KC=0.00661 10$LC=0.000784 13$MC=0.0001472 23$NC+=2.48E-5
105PDS G NC=2.48E-5 4
105PD cG E$422.2|g in 1996Me17 assumed by the evaluators to be a typo.
105PD L 489.2 9 11/2-
105PD G 182.92 8.6 M2 0.453
105PD3 G EKC=0.40 5 (1970KA13)
105PDS G KC=0.383 6$LC=0.0567 8$MC=0.01087 16$NC+=0.00182 3
105PDS G NC=0.00182 3
105PD L 560.7 5 3/2+
105PD E 0.14 4 9.83 13 0.14 4 1U
105PDS E CK=0.8514 2$CL=0.1192 1$CM+=0.02938 3
105PD G 216.1 0.33 [M1+E2] 0.068 23
105PDS G KC=0.058 18$LC=0.008 4$MC=0.0016 7$NC+=0.00026 11
105PDS G NC=0.00026 11
105PD G 560.79 13.5 M1+E2
105PD3 G EKC=0.0038 4 (1970KA13)
105PDS G CC=0.00427 7$KC=0.00372 6$LC=0.000451 18$MC=8.5E-5 4$NC+=1.42E-5 5
105PDS G NC=1.42E-5 5
105PD L 644.6 6 7/2- 126 PS 2
105PD cL T$443-645|g(t) with cooled NaI detectors (1981Al19)
105PD cL $g=-0.427~{I25} from IPAC in 1981Al19
105PD cL CONF$2{++}~#|nh{-11/2}
105PD E 0.053 7 10.30 6 0.053 7 2U?
105PDS E CK=0.8323 4$CL=0.1340 3$CM+=0.03370 9
105PD G 155.38 9.8 E2 0.289
105PD3 G EKC=0.235 21 (1970KA13)
105PDS G KC=0.238 4$LC=0.0423 6$MC=0.00808 12$NC+=0.001290 18
105PDS G NC=0.001290 18
105PD G 202.21 0.7 [E1+M2] 0.17 15
105PDS G KC=0.15 13$LC=0.021 19$MC=0.004 4$NC+=0.0007 6
105PDS G NC=0.0007 6
105PD G 325.43 4.8 E1
105PD3 G EKC=0.0043 8 (1970KA13)
105PDS G CC=0.00559 8$KC=0.00489 7$LC=0.000571 8$MC=0.0001067 15$NC+=1.79E-5 3
105PDS G NC=1.79E-5 3
105PD G 644.63 242 E1+M2 -0.016 4
105PD3 G EKC=0.00090 6 (1970KA13)
105PDS G CC=0.001061 15$KC=0.000930 13$LC=0.0001070 15$MC=2.00E-5 3$NC+=3.37E-6
105PDS G NC=3.37E-6 5
105PD cG MR$-0.020~{I+5-6} from |g|g(|q) in 1977Ba32; Other: -0.012~{I4} from
105PD2cG |g|g(|q) in 1981Al19
105PD cG M$A{-22}=-0.170~{I5}, 0.001~{I1} (1977Ba32)
105PD L 650.8 5 (3/2)+
105PD E 7.2 7 7.66 5 7.2 7
105PDS E CK=0.8601$CL=0.11250 5$CM+=0.02744 2
105PD G 90.01 0.8 [M1+E2] 1.3 8
105PDS G KC=1.0 6$LC=0.23 18$MC=0.04 4$NC+=0.007 6
105PDS G NC=0.007 6
105PD G 331.58 98.6 M1+E2 -0.084 7 0.01539
105PDS G KC=0.01343 19$LC=0.001602 23$MC=0.000301 5$NC+=5.07E-5 8
105PDS G NC=5.07E-5 8
105PD cG M$A{-22}=-0.104~{I11}, A{-44}=-0.10~{I10} (1977Ba32); Also
105PD2cG |a(K)exp=0.0122~{I8} (1970Ka13)
105PD cG MR$-0.084~{I7} from |g-|g(|q) in 1983Si08, and -0.062~{I9} from
105PD2cG |g-|g(|q) in 1981Al19
105PD G 344.51 ?
105PD G 370.28 17.6 M1+E2 0.11 3 0.01167
105PDS G KC=0.01020 15$LC=0.001212 18$MC=0.000228 4$NC+=3.84E-5 6
105PDS G NC=3.84E-5 6
105PD cG M$A{-22}=-0.072~{I12}, A{-44}=-0.001~{I16} (1983Si08); Other:
105PD2cG A{-22}=-0.098~{I16} A{-44}=-0.030~{I45} (1977Ba32); Also
105PD3cG |a(K)exp=0.0094~{I8} (1970Ka13)
105PD cG MR$Also: 0.000~{I3} (1977Ba32)
105PD G 650.78 60.0 M1+E2
105PD3 G EKC=0.00264 18 (1970KA13)
105PDS G CC=0.00293 7$KC=0.00256 7$LC=0.000306 5$MC=5.74E-5 9$NC+=9.64E-6 14
105PDS G NC=9.64E-6 14
105PD L 673.2 5 1/2+ A
105PD E 2.9 3 8.02 5 2.9 3
105PDS E CK=0.8598$CL=0.11270 5$CM+=0.02749 2
105PD G 112.51 0.84 [M1+E2] 0.6 4
105PDS G KC=0.48 25$LC=0.09 7$MC=0.018 13$NC+=0.0029 20
105PDS G NC=0.0029 20
105PD G 328.61 4.9 (M1) 0.01570
105PD3 G EKC=0.0084 9 (1970KA13)
105PDS G KC=0.01371 20$LC=0.001632 23$MC=0.000307 5$NC+=5.17E-5 8
105PDS G NC=5.17E-5 8
105PD G 353.8 0.2 [E2] 0.01725
105PDS G KC=0.01482 21$LC=0.00200 3$MC=0.000377 6$NC+=6.22E-5 9
105PDS G NC=6.22E-5 9
105PD G 392.73 47.8 M1+E2 +0.06 3 0.0100615
105PDS G KC=0.00879 13$LC=0.001042 15$MC=0.000196 3$NC+=3.30E-5 5
105PDS G NC=3.30E-5 5
105PD cG M$A{-22}=0.182~{I17}, A{-44}=0.020~{I25} (1983Si08); Other:
105PD2cG 0.149~{I13}, -0.014~{I20} (1977Ba32); Also |a(K)exp=0.0083~{I6}
105PD3cG (1970Ka13)
105PD cG MR$0.05~{I4} in 1983Si08 from |g-|g(|q), -0.84~{I+3-17} from |g|g(|q)
105PD2cG in 1977Ba32; and +0.10~{I7} from |g-|g(|q) in 1981Al19
105PD G 673.24 23.3 E2
105PD3 G EKC=0.00224 19 (1970KA13)
105PDS G CC=0.00263 4$KC=0.00229 4$LC=0.000280 4$MC=5.26E-5 8$NC+=8.79E-6 13
105PDS G NC=8.79E-6 13
105PD L 727.3 5 5/2+
105PD E 0.036 4 9.99 5 0.036 4 1U
105PDS E CK=0.8458 3$CL=0.12361 18$CM+=0.03064 6
105PD G 284.8 2.3 M1 0.0226
105PD3 G EKC=0.0162 23 (1970KA13)
105PDS G KC=0.0197 3$LC=0.00236 4$MC=0.000443 7$NC+=7.47E-5 11
105PDS G NC=7.47E-5 11
105PD G 408.08 1.0 M1(+E2) 0.0101 10
105PD3 G EKC=0.0070 25 (1970KA13)
105PDS G KC=0.0087 8$LC=0.00109 15$MC=0.00021 3$NC+=3.4E-5 5
105PDS G NC=3.4E-5 5
105PD G 421.03 2.9 M1(+E2)
105PD3 G EKC=0.0069 17 (1970KA13)
105PDS G CC=0.0092 8$KC=0.0080 7$LC=0.00100 13$MC=0.000188 25$NC+=3.1E-5 4
105PDS G NC=3.1E-5 4
105PD G 446.8 2.4 M1+E2 0.9 +9-5
105PDS G CC=0.0078 4$KC=0.0068 3$LC=0.00083 6$MC=0.000157 11$NC+=2.62E-5 17
105PDS G NC=2.62E-5 17
105PD cG M$A{-22}=0.043 {I32}; A{-44}=0.053 {I47} (1983Si08)
105PD G 727.28 3.5 M1(+E2)
105PD3 G EKC=0.0028 9 (1970KA13)
105PDS G CC=0.00223 9$KC=0.00195 8$LC=0.000231 5$MC=4.34E-5 9$NC+=7.30E-6 18
105PDS G NC=7.30E-6 18
105PD L 921.2 6 (1/2+:5/2+)
105PD E 0.073 7 9.21 5 0.073 7
105PDS E CK=0.8551 2$CL=0.11640 13$CM+=0.02854 4
105PD G 270.5 0.03
105PD G 576.7 0.6
105PD G 640.5 0.7
105PD G 921.2 0.4
105PD L 929.1 6(5/2+)
105PD G 486.8 0.11 [M1+E2]
105PDS G CC=0.0062 3$KC=0.00540 21$LC=0.00066 6$MC=0.000125 10$NC+=2.08E-5 15
105PDS G NC=2.08E-5 15
105PD G 610.0 0.2 [M1+E2]
105PDS G CC=0.00345 6$KC=0.00301 6$LC=0.000361 8$MC=6.79E-5 16$NC+=1.139E-5 22
105PDS G NC=1.139E-5 22
105PD G 929.1 0.33 [M1+E2]
105PDS G CC=0.00126 7$KC=0.00110 7$LC=0.000129 6$MC=2.42E-5 11$NC+=4.07E-6 20
105PDS G NC=4.07E-6 20
105PD L 962.5 5 (1/2,3/2)+
105PD E 1.79 17 7.72 5 1.79 17
105PDS E CK=0.8536 2$CL=0.11752 16$CM+=0.02886 5
105PD G 289.37 2.9 M1 0.0217
105PD3 G EKC=0.0147 17 (1970KA13)
105PDS G KC=0.0189 3$LC=0.00226 4$MC=0.000425 6$NC+=7.17E-5 10
105PDS G NC=7.17E-5 10
105PD G 311.74 1.9 M1 0.0179
105PD3 G EKC=0.0096 14 (1970KA13)
105PDS G KC=0.01566 22$LC=0.00187 3$MC=0.000351 5$NC+=5.92E-5 9
105PDS G NC=5.92E-5 9
105PD G 401.75 4.6 M1
105PD3 G EKC=0.0065 10 (1970KA13)
105PDS G CC=0.00950 14$KC=0.00831 12$LC=0.000983 14$MC=0.000185 3$NC+=3.11E-5 5
105PDS G NC=3.11E-5 5
105PD G 617.90 28.6 3 M1(+E2)
105PD3 G EKC=0.00306 25 (1970KA13)
105PDS G CC=0.00334 6$KC=0.00291 6$LC=0.000350 7$MC=6.56E-5 14$NC+=1.101E-5 19
105PDS G NC=1.101E-5 19
105PD G 681.94 1.8 M1(+E2)
105PD3 G EKC=0.0034 8 (1970KA13)
105PDS G CC=0.00261 8$KC=0.00228 8$LC=0.000272 4$MC=5.10E-5 8$NC+=8.57E-6 15
105PDS G NC=8.57E-6 15
105PD G 962.45 2.7 M1(+E2)
105PD3 G EKC=0.00119 23 (1970KA13)
105PDS G CC=0.00116 7$KC=0.00102 6$LC=0.000119 6$MC=2.23E-5 11$NC+=3.75E-6 19
105PDS G NC=3.75E-6 19
105PD L 1088.1 4 3/2-
105PD E 17.5 17 6.36 5 17.5 17
105PDS E CK=0.8461 5$CL=0.1234 4$CM+=0.03053 11
105PD G 159.0 0.75 [E1] 0.0405
105PDS G KC=0.0354 5$LC=0.00420 6$MC=0.000783 11$NC+=0.0001301 19
105PDS G NC=0.0001301 19
105PD G 360.72 11.3 E1
105PD3 G EKC=0.0039 4 (1970KA13)
105PDS G CC=0.00427 6$KC=0.00374 6$LC=0.000436 6$MC=8.15E-5 12$NC+=1.365E-5 20
105PDS G NC=1.365E-5 20
105PD G 414.85 7.2 (E1)
105PD3 G EKC=0.0040 8 (1970KA13)
105PDS G CC=0.00299 5$KC=0.00262 4$LC=0.000305 5$MC=5.69E-5 8$NC+=9.55E-6 14
105PDS G NC=9.55E-6 14
105PD G 437.30 6.9 E1
105PD3 G EKC=0.0029 6 (1970KA13)
105PDS G CC=0.00263 4$KC=0.00230 4$LC=0.000267 4$MC=4.99E-5 7$NC+=8.37E-6 12
105PDS G NC=8.37E-6 12
105PD G 443.44 259 E2
105PD3 G EKC=0.0075 5 (1970KA13)
105PDS G CC=0.00853 12$KC=0.00737 11$LC=0.000954 14$MC=0.000180 3$NC+=2.98E-5 5
105PDS G NC=2.98E-5 5
105PD G 527.34 2.6 E1
105PD3 G EKC=0.0015 4 (1970KA13)
105PDS G CC=0.001673 24$KC=0.001466 21$LC=0.0001694 24$MC=3.17E-5 5$NC+=5.32E-6
105PDS G NC=5.32E-6 8
105PD G 646.00 1.6 [M2]
105PDS G CC=0.00876 13$KC=0.00762 11$LC=0.000940 14$MC=0.0001774 25$NC+=2.99E-5
105PDS G NC=2.99E-5 5
105PD G 743.45 12.7 E1
105PD3 G EKC=0.00070 11 (1970KA13)
105PDS G CC=0.000778 11$KC=0.000683 10$LC=7.83E-5 11$MC=1.463E-5 21$NC+=2.46E-6
105PDS G NC=2.46E-6 4
105PD G 768.9 0.24 [E1+M2]
105PDS G CC=0.0031 24$KC=0.0027 21$LC=0.0003 3$MC=6.E-5 5$NC+=1.0E-5 8
105PDS G NC=1.0E-5 8
105PD G 807.57 27.5 17 E1(+M2) 0.03 +4-3
105PD3 G EKC=0.00061 7 (1970KA13)
105PDS G CC=0.000659 19$KC=0.000579 17$LC=6.62E-5 20$MC=1.24E-5 4$NC+=2.08E-6 7
105PDS G NC=2.08E-6 7
105PD cG M$A{-22}=-0.108 {I15}; A{-44}=-0.2 {I2} (1983Si08)
105PD cG MR$0.03~{I+4-3} in 1983Si08, based on |g|g(|q)
105PD G 1088.05 86. E1
105PD3 G EKC=0.000299 22 (1970KA13)
105PDS G CC=0.000366 6$KC=0.000322 5$LC=3.66E-5 6$MC=6.83E-6 10$NC+=1.152E-6 17
105PDS G NC=1.152E-6 17
105PD L 1125.2 7 (1/2+:7/2+)
105PD E 0.042 5 8.84 6
105PDS E CK=0.8420 7$CL=0.1266 6$CM+=0.03144 16
105PD G 564.4 0.13 4
105PD G 844.6 0.6
105PD G 1125.2 0.27