167ER    167TM EC DECAY (9.25 D)                                          201612
167ER  H TYP=UPD$AUT=V.P.Chechev and N.K.Kuzmenko$CUT=10-DEC-2016$
167ER2 H TYP=FUL$AUT=C.M. Baglin$CUT=05-JUL-2000$
167ER C  History: Type=UPD;Author=V.P.Chechev, N.K.Kuzmenko;Cutoff=10-DEC-2016
167ER2C  Type=FUL;Author=C.M. Baglin;Cutoff date=05-JUL-2000
167ER C  References: 1968Fu09, 1970Ka23,  1979ArZU, 2000Ba65, 2016Ch04
167ER T  Auger electrons and ^X ray energies and emission intensities:
167ER T       {U Energy (keV)}     {U Intensity }      {U Line  }
167ER T
167ER T        48.2215           27.4  23        XKA2
167ER T        49.1282           49  4           XKA1
167ER T   
167ER T        55.495         |]                  XKB3
167ER T        55.682         |]  15.8  14        XKB1
167ER T        56.04          |]                  XKB5II
167ER T   
167ER T        57.21          |]                  XKB2
167ER T        57.313         |]  4.1  4          XKB4
167ER T        57.456         |]                  XKO23
167ER T   
167ER T        6.1414-9.4303     33.1  13        XL (total)
167ER T        6.1414            0.62  4         XLL
167ER T        6.9058-6.9479     14.2  8         XLA
167ER T        7.0471            0.281  16       XLC
167ER T        7.7455-8.1724     15.3  7         XLB
167ER T        8.8145-9.4303     2.66  12        XLG
167ER T   
167ER T        37.79-40.563   |]                  KLL AUGER
167ER T        45.446-49.098  |]  5.9  7          ^KLX AUGER
167ER T        53.07-57.43    |]                  KXY AUGER
167ER T        3.9449-9.6925     115.2  26       L AUGER
167ER  N 1.0         1.0       1         1.0
167TM  P 0.0         1/2+              9.25 D    2              746.7     15
167ER  L 0           7/2+                STABLE   
167ER  L 207.801   5 1/2-              2.269 S   6
167ER  E                       70      9 6.5                                   
167ER2 E EAV=   $CK=0.80969 9$CL=0.14594 7$CM=0.04437 3$CN=   $CO=   
167ER  G 207.801   5 41.3    33E3                      1.38   2
167ER2 G KC=0.476   7$LC=0.689   10$MC=0.1718  24
167ER  L 264.874   6 3/2-              1.47 NS   5
167ER  E                       30      5 6.8                                 1
167ER2 E EAV=   $CK=0.8058 2$CL=0.14879 9$CM=0.04539 3$CN=   $CO=   
167ER  G 57.073    8 4.9     8 M1+E2     0.360   11    5.13   17
167ER2 G KC=   $LC=3.96 13$MC=0.93 4
167ER  G 264.874   6 0.078   LEM2                      0.833  12
167ER2 G KC=0.664   10$LC=0.1307  19$MC=0.0300  5
167ER  L 281.574   6 5/2-                         
167ER  G 16.700    8
167ER  G 73.773    8           E2                      9.66   14
167ER2 G KC=1.90    3$LC=5.94    9$MC=1.449   21
167ER  L 346.554   155/2-              1.0 NS    1
167ER  E                       0.026   3 9.4                                 1U
167ER2 E EAV=   $CK=0.7252 7$CL=0.2073 5$CM=0.0676 2$CN=   $CO=   
167ER  G 346.554   150.026   3 E1                      0.0130319
167ER2 G KC=0.01102 16$LC=1576E-6 22$MC=3.47E-4 5
167ER  L 531.54    4 3/2+              19.3 PS   23
167ER  E                       1.7     1 7.2                                   
167ER2 E EAV=   $CK=0.7498 9$CL=0.1899 7$CM=0.0603 2$CN=   $CO=   
167ER  G 249.966   400.0024  4 E1                      0.0293 5
167ER2 G KC=0.0247  4$LC=0.00360 5$MC=7.95E-4 12
167ER  G 266.666   400.0024  4 E1                      0.0249 4
167ER2 G KC=0.0210  3$LC=0.00305 5$MC=6.72E-4 10
167ER  G 323.739   400.0022  4 E1                      0.0153722
167ER2 G KC=0.01299 19$LC=0.00187 3$MC=4.11E-4 6
167ER  G 531.539   401.69    10E2                      0.0140720
167ER2 G KC=0.01128 16$LC=0.00217 3$MC=4.94E-4 7