


************************************************************************************************************************************
************************************************************************************************************************************


                                AAAAAAAA      UU      UU     TTTTTTTTTT      OOOOOOOO
                               AAAAAAAAAA     UU      UU     TTTTTTTTTT     OOOOOOOOOO
                               AA      AA     UU      UU         TT         OO      OO
                               AA      AA     UU      UU         TT         OO      OO
                               AA      AA     UU      UU         TT         OO      OO
                               AA      AA     UU      UU         TT         OO      OO
                               AAAAAAAAAA     UU      UU         TT         OO      OO
                               AAAAAAAAAA     UU      UU         TT         OO      OO
                               AA      AA     UU      UU         TT         OO      OO
                               AA      AA     UU      UU         TT         OO      OO
                               AA      AA     UUUUUUUUUU         TT         OOOOOOOOOO
                               AA      AA      UUUUUUUU          TT          OOOOOOOO


  SSSSSSSS      TTTTTTTTTT     RRRRRRRRR      UU      UU      CCCCCCCC      TTTTTTTTTT     UU      UU     RRRRRRRRR      EEEEEEEEEE
 SSSSSSSSSS     TTTTTTTTTT     RRRRRRRRRR     UU      UU     CCCCCCCCCC     TTTTTTTTTT     UU      UU     RRRRRRRRRR     EEEEEEEEEE
 SS                 TT         RR      RR     UU      UU     CC      CC         TT         UU      UU     RR      RR     EE
 SS                 TT         RR      RR     UU      UU     CC                 TT         UU      UU     RR      RR     EE
 SS                 TT         RR     RR      UU      UU     CC                 TT         UU      UU     RR     RR      EE
 SSSSSSSSS          TT         RRRRRRRR       UU      UU     CC                 TT         UU      UU     RRRRRRRR       EEEEEEEEE
  SSSSSSSSS         TT         RRRRRR         UU      UU     CC                 TT         UU      UU     RRRRRR         EEEEEEEEE
         SS         TT         RR   RR        UU      UU     CC                 TT         UU      UU     RR   RR        EE
         SS         TT         RR    RR       UU      UU     CC                 TT         UU      UU     RR    RR       EE
         SS         TT         RR     RR      UU      UU     CC     CC          TT         UU      UU     RR     RR      EE
 SSSSSSSSSS         TT         RR      RR     UUUUUUUUUU     CCCCCCCCC          TT         UUUUUUUUUU     RR      RR     EEEEEEEEEE
  SSSSSSSS          TT         RR       RR     UUUUUUUU       CCCCCCC           TT          UUUUUUUU      RR       RR    EEEEEEEEEE


************************************************************************************************************************************
************************************************************************************************************************************





 WORD INFO-

            LOGICAL BYTE LENGTH=  1

      SHORT INTEGER BYTE LENGTH=  2     RANGE=    4
    DEFAULT INTEGER BYTE LENGTH=  4     RANGE=    9
   EXTENDED INTEGER BYTE LENGTH=  8     RANGE=   18

      SHORT    REAL BYTE LENGTH=  4     RANGE=   37     PRECISION= 6
    DEFAULT    REAL BYTE LENGTH=  8     RANGE=  307     PRECISION=15





 THIS VERSION OF AUTOSTRUCTURE (30.19) IS COMPILED WITH THE FOLLOWING ALLOCATABLE STORAGE PARAMETERS-


    NAME      VALUE              NAME      VALUE              NAME      VALUE              NAME      VALUE

   MXAAI         -1             MXAAK         -1             MAXAD         -1             MXADJ         -1
   MXAJS         -1             MAXB1         -1             MAXB2         -1             MXBIF         -1
   MXBLM         -1             MXCAS         -1             MAXCF         -1             MXCHG         -1
   MAXCL         -1             MAXCT         -1             MAXDC   80000000             MAXDF         -1
   MXDFS         -1             MAXDI         -1             MAXDK         -1             MXEL0         -1
   MXENG         -1             MXEST         -1             MXFSL         -1             MXFSS         -1
   MXFOO         -1             MAXGR         -1             MXGRB         -1             MAXJG         -1
   MAXJU         -1             MAXLL         -1             MAXLV         -1             MAXMI     100000
   MXNOR         -1             MXPOT         -1             MAXRK    2500000             MXRKO         -1
   MXRKS    2500000             MAXRL       9995             MXRLO         -1             MXRLS       9995
   MXROS         -1             MXRSS   25000000             MAXSL         -1             MXSOC   20000000
   MXSOI      15000             MXST0     400050             MXSTX     400000             MXSYJ         -1
   MXS1C   20000000             MXS1I      15000             MXS2C   25000000             MXS2I     100000
   MAXTM         -1             MAXTR         -1             MAXUC         -1             MXVAR         -1




 ---------------------------------------------------------------------------------------------------------

 A.S. H-like DW                                                                  

 ---------------------------------------------------------------------------------------------------------



      OPTION CHOSEN, NOPTN=    3 FOR ORBITALS MXORB=   3
 BASIC CONFIGURATION    1                                    1  0  0
 BASIC CONFIGURATION    2                                    0  1  0
 BASIC CONFIGURATION    3                                    0  0  1

    3    3
  1 0  2 0  2 1
   1: 1 0 0
   2: 0 1 0
   3: 0 0 1


 ------------------------------------------------------------------------------------------------------------------------------------------





 ATOM WITH   1 ELECTRONS IN   3 CONFIGURATIONS


 ATTENTION: SOME OF THE INTERNAL ORBITALS MAY HAVE BEEN REDEFINED, AND MAY NOT BE THE STANDARD CODE (K=1,2,3... FOR  1S,2S,2P...)
    K       1      2      3      4      5      6      7      8      9     10     11     12     13     14     15
   N L    1  0   2  0   2  1


 CONFIGURATION CF=   1,          0 ON DISK, (N-L)-COMBINATIONS     1  0
 SLATER-STATES STORED IN         2=JA         3=JB, MAXST=        25; VCC STORED UP TO         2=MTGD, MAXDC=  80000000; MAXDF=   1; MOD=-2
       1 SPECTROSCOPIC TERMS   (2S+1 L DP):    2  0  1


 CONFIGURATION CF=   2,          0 ON DISK, (N-L)-COMBINATIONS     2  0
 SLATER-STATES STORED IN         4=JA         5=JB, MAXST=        25; VCC STORED UP TO         4=MTGD, MAXDC=  80000000; MAXDF=   1; MOD=-2
       1 SPECTROSCOPIC TERMS   (2S+1 L DP):    2  0  1


 CONFIGURATION CF=   3,          0 ON DISK, (N-L)-COMBINATIONS     2  1
 SLATER-STATES STORED IN         6=JA        11=JB, MAXST=        25; VCC STORED UP TO        10=MTGD, MAXDC=  80000000; MAXDF=   1; MOD=-2
       1 SPECTROSCOPIC TERMS   (2S+1 L DP):    2  1  1


       3=BUFFER   MAXCT=       5;            18=JBF MXST0=        25;                         10=MTGD, MAXDC=  80000000 BUFFER STORAGE USED


    T 2S+1  L  (P-0/1 FOR EVEN/ODD)        CF    NT GR                    **** TERM TABLE ****
                                                         GROUP=  1    2S+1= 2  L= 1   PI= 1    NC=     1


                                                         GROUP=  2    2S+1= 2  L= 0   PI= 0    NC=     2



                                                                         (     2)          2       MAXDI=         -1

                                                                    (          5)          5       MAXUC=         -1

                                                                                           0       MXAAI=         -1


 SLATER COEFFICIENTS  F(A,...)  FOR CONSTRUCTING   ( T !  H  ! TP ) = SUM( F(A,...) * R(A,...) );   NCYC=0: COMMON DIAGONAL CORE TERM
       -1 -1    -1    -1  2500000 9995 STORAGE RESTRICTIONS FOR (MAXAD,MAXSL,MAXTM,MAXTM,MAXRK,MAXRL), MXDFS= 325
     NCYC GR     T    TP      MNF  MNR   I(R)  F(A,...)   I(R)  F(A,...)   I(R)  F(A,...)   I(R)  F(A,...)   I(R)  F(A,...)   I(R)  F(A,...)
        4  2     3     3        1    1

 SLATER STATE INTERACTION STORAGE (MXRKS,MXRLS)  2500000  9995          USED:        1     1

                                                                                               0=MTGD, MAXDC=  80000000 BUFFER STORAGE USED

 *** PRINTOUT OF COEFFICIENTS SUPPRESSED - MPRINT(MODULO 5)= 0

  IOSC     T    TP    B   D      MNF
     6     3     3    2   2        8

 SLATER STATE INTERACTION STORAGE (MXRKS,MXRLS)  2500000  9995          USED:        3     3

                                                                                               0=MTGD, MAXDC=  80000000 BUFFER STORAGE USED

 *** PRINTOUT OF COEFFICIENTS SUPPRESSED - MPRINT(MODULO 5)= 0


 NOT ENOUGH VCC'S AVAILABLE FOR CALCULATION OF RELATIVISTIC CORRECTIONS: CHANGE MOD  TO 1,-1 OR 0


 CPU TIME=    0.000 MIN     TOTAL CPU TIME=    0.000 MIN


                                   ************************************************************




 RADIAL FUNCTIONS:   PRECISION OF EIGENVALUE IS 1.00E-07      1792 POINTS (MSTEP=13);  ATOMIC NUMBER  2,   NUMBER OF ELECTRONS  1
                       NL =  1  0   S.M.-POTENTIAL V(NL) WITH SCALE FACTOR   1.00000;  COULOMBIC BEYOND R(IEND=    1) =  0.000072
       OVERLAP INTEGRAL      2 0 WITH 1 0 = -1.3458E-09


 GAM ( N,  L,NION, Z,SIG/D/P)  EPSILON/RY      <1/R>  <Z/R-V>      <R>   <R**2>   <R**3>   (ADJUST, REND, 3 LAST P) IN    1074 STEPS
   1   1   0   1   2 -0.00000     -4.00000   2.00000 -0.00000  0.75000   0.7500   0.9375    1.0000  0.00  5.00E-17 4.65E-17 4.33E-17
   2   2   0   1   2  0.00000     -1.00000   0.50000  0.00000  3.00000  10.5000  41.2500    1.0000  0.00 -5.51E-07-5.33E-07-5.16E-07
   3   2   1   1   2  0.00000     -1.00000   0.50000 -0.00000  2.50000   7.5000  26.2500    1.0000  0.00  3.34E-07 3.23E-07 3.13E-07
                                                                                        R OF 3 LAST P(R):   21.160   21.196   21.233

   I(R)   R(  A,  B,   C,  D, 2LBD ) = SLATER-INTEGRALS    (2LAMBDA=-1 DENOTES ONE-BODY INTEGRALS <A!-D**2/DR**2+L(L+1)/R**2-2Z/R!C>)
      1       2   0    1   0    -1    -0.0000000

   N(B)  NC B(A,  B,   C,  D, 2LBD)  = BORN-INTEGRALS
      1    1  1   1    1   1     0     0.0729042
      2    2  2   1    1   1     0    -0.0239088
      3    2  2   1    2   1     0     0.0138732
      4    3  2   2    1   1     0     0.2169863
      5    3  2   2    2   1     0    -0.1258415
      6    3  2   2    2   2     0     1.2386780
      7    4  3   3    1   1     0     0.1949312
      8    4  3   3    2   1     0    -0.1057255
      9    4  3   3    2   2     0     1.0142732
     10    4  3   3    3   3     0     0.8422494
     10    4  3   3    3   3     4     0.0714286

 DIPOLE LENGTH INTEGRALS (K=1, FOR /L-L'/=1)  AND QUADRUPOLE (K=2) INTEGRALS  <NL! R**K !N'L'>; ('N**' STANDS FOR: NL NOT COMPUTED)
        ABOVE THE DIAGONAL ARE VELOCITY INTEGRALS <NL! 2*D/DR+(L'(L'+1)-L(L+1))/R !N'L'>      
   N  L   1  0    2  0    2  1
   1  0   0.0000  0.0000  1.9354
   2  0   0.0000  0.0000 -0.0000
   2  1   0.6451 -2.5981  7.5000


   T,2S+1L  P    H(1)/2RY   EIGEN-H/2RY   CF  NI  NO  CI-MATRIX <GSL!CASL>  AND  H(2)/2RY-TRIANGLE.  E(CORE)/2RY =    0.0000     0.0000
   1  2  1  1      -0.50000     -0.500000  3   1   1  1.0000  0.0000
   2  2  0  0      -2.00000     -2.000000  1   1   1  1.0000  0.0000  0.0000
   3  2  0  0      -0.50000     -0.500000  2   1   2 -0.0000  1.0000 -0.0000  0.0000
 CORE CONTRIB.       0.0000     0.00000


     0 (IF .GT. 0: LOWEST STAT-WEIGHTED) TERMS ARE MINIMIZED;    SCALING PARAMETERS   1.00000  1.00000  1.00000
         I         T        K*CM  2S+1 L   CF     WEIGHTS        (EI-E1)/RY     E1/RY =     -4.000000
         1         2           0.    2 0    1       0.000          0.000000
         2         3      329212.    2 0    2       0.000          3.000000
         3         1      329212.   -2 1    3       0.000          3.000000


 *** ATTN: BECAUSE BORN MULTIPOLES ARE BEING COMPUTED FOR NON-E1 TRANSITIONS, RADIATIVE DATA IS NOT COMPUTED FOR THOSE E3 TRANSITIONS
           FOR WHICH E1 DATA ALREADY EXISTS (SO AS NOT TO OVERWRITE THE E1-LIMIT)

  
   E0-DATA  I  IP      A(EK)*SEC         S        10**5*  G*F       *F(ABS)   -F(EMI)    WAVEL/AE    *GF(VEL) *V(GFL*GFV)    *GF(ACC)   OMG(BORN)
    1       2   1      0.000E+00     0.0000000        0.000000      0.00000   0.00000    303.7557      0.0000      0.0000      0.0000      0.2220
  
   E1-DATA  I  IP      A(EK)*SEC         S                G*F        F(ABS)   -F(EMI)    WAVEL/AE     GF(VEL)  V(GFL*GFV)     GF(ACC)  ALPHA(POL)
    1       3   1     -1.003E+10    -0.8323934       -0.832393     -0.41620  -0.13873    303.7557      0.8324     -0.8324     -0.8324      0.1850
    2       3   2      1.508E-17    13.5000001        0.000000      0.00000   0.00000************     -0.0000     -0.0000************************
  
   E2-DATA  I  IP      A(EK)*SEC         S        10**5*  G*F       *F(ABS)   -F(EMI)    WAVEL/AE    *GF(VEL) *V(GFL*GFV)    *GF(ACC)   OMG(BORN)
  
 IBOMX=           2


         INCLUD =    0         FUNCTIONAL F = 0.0000000E+00         FUNCTIONAL G = 0.000E+00 (   0 TRANSITIONS)         LS.JPRINT= 2




 CPU TIME=    0.002 MIN     TOTAL CPU TIME=    0.002 MIN



 ----------------------------------------------------------------------------------------------------------------------------------------

                                                  *** ELECTRON-IMPACT EXCITATION ***

 ----------------------------------------------------------------------------------------------------------------------------------------




    T 2S+1  L  (P-0/1 FOR EVEN/ODD)        CF    NT GR               **** TARGET TERMS ****               NMETA=   3
    1   2   1   1                           3     3  1
    2   2   0   0                           1     1  2
    3   2   0   0                           2     2  2



 ----------------------------------------------------------------------------------------------------------------------------------------

                                                    *** COLLISION ALGEBRA (LS) ***

 ----------------------------------------------------------------------------------------------------------------------------------------



 CONTINUUM ORBITAL INDEXING FOR TOTAL L:
                                                             GAM  SMALL L
                                                               4   L- 1
                                                               5   L 
                                                               6   L+ 1


 ----------------------------------------------------------------------------------------------------------------------------------------


 *** PARTIAL WAVE SYMMETRY RESTRICTIONS:     MAXIMUM EXCHANGE L (MAXLX) =  6

                                             MAX EXCHANGE LAMDA (MXLAMX)=  5

                                             No. OF MULTIPOLES (NMULTX) =  7


 MINST= 1   MAXST= 3     MINLT= 0   MAXLT= 11


 ----------------------------------------------------------------------------------------------------------------------------------------



 SY=  1     (2S+1) L P =  1   0  0
             CH        T   SMALL L
              1        1         1
              2        2         0
              3        3         0

 SY=  2     (2S+1) L P =  3   0  0
             CH        T   SMALL L
              1        1         1
              2        2         0
              3        3         0

 SY=  3     (2S+1) L P =  1   1  0
             CH        T   SMALL L
              1        1         1

 SY=  4     (2S+1) L P =  1   1  1
             CH        T   SMALL L
              1        1         0
              2        1         2
              3        2         1
              4        3         1

 SY=  5     (2S+1) L P =  3   1  0
             CH        T   SMALL L
              1        1         1

 SY=  6     (2S+1) L P =  3   1  1
             CH        T   SMALL L
              1        1         0
              2        1         2
              3        2         1
              4        3         1

 SY=  7     (2S+1) L P =  1   2  0
             CH        T   SMALL L
              1        1         1
              2        1         3
              3        2         2
              4        3         2

 SY=  8     (2S+1) L P =  1   2  1
             CH        T   SMALL L
              1        1         2

 SY=  9     (2S+1) L P =  3   2  0
             CH        T   SMALL L
              1        1         1
              2        1         3
              3        2         2
              4        3         2

 SY= 10     (2S+1) L P =  3   2  1
             CH        T   SMALL L
              1        1         2

 SY= 11     (2S+1) L P =  1   3  0
             CH        T   SMALL L
              1        1         3

 SY= 12     (2S+1) L P =  1   3  1
             CH        T   SMALL L
              1        1         2
              2        1         4
              3        2         3
              4        3         3

 SY= 13     (2S+1) L P =  3   3  0
             CH        T   SMALL L
              1        1         3

 SY= 14     (2S+1) L P =  3   3  1
             CH        T   SMALL L
              1        1         2
              2        1         4
              3        2         3
              4        3         3

 SY= 15     (2S+1) L P =  1   4  0
             CH        T   SMALL L
              1        1         3
              2        1         5
              3        2         4
              4        3         4

 SY= 16     (2S+1) L P =  1   4  1
             CH        T   SMALL L
              1        1         4

 SY= 17     (2S+1) L P =  3   4  0
             CH        T   SMALL L
              1        1         3
              2        1         5
              3        2         4
              4        3         4

 SY= 18     (2S+1) L P =  3   4  1
             CH        T   SMALL L
              1        1         4

 SY= 19     (2S+1) L P =  1   5  0
             CH        T   SMALL L
              1        1         5

 SY= 20     (2S+1) L P =  1   5  1
             CH        T   SMALL L
              1        1         4
              2        1         6
              3        2         5
              4        3         5

 SY= 21     (2S+1) L P =  3   5  0
             CH        T   SMALL L
              1        1         5

 SY= 22     (2S+1) L P =  3   5  1
             CH        T   SMALL L
              1        1         4
              2        1         6
              3        2         5
              4        3         5

 SY= 23     (2S+1) L P =  1   6  0
             CH        T   SMALL L
              1        1         5
              2        1         7
              3        2         6
              4        3         6

 SY= 24     (2S+1) L P =  1   6  1
             CH        T   SMALL L
              1        1         6

 SY= 25     (2S+1) L P =  3   6  0
             CH        T   SMALL L
              1        1         5
              2        1         7
              3        2         6
              4        3         6

 SY= 26     (2S+1) L P =  3   6  1
             CH        T   SMALL L
              1        1         6

 SY= 27     (2S+1) L P = -4   7  0
             CH        T   SMALL L
              1        1         7

 SY= 28     (2S+1) L P = -4   7  1
             CH        T   SMALL L
              1        1         6
              2        1         8
              3        2         7
              4        3         7

 SY= 29     (2S+1) L P = -4   8  0
             CH        T   SMALL L
              1        1         7
              2        1         9
              3        2         8
              4        3         8

 SY= 30     (2S+1) L P = -4   8  1
             CH        T   SMALL L
              1        1         8

 SY= 31     (2S+1) L P = -4   9  0
             CH        T   SMALL L
              1        1         9

 SY= 32     (2S+1) L P = -4   9  1
             CH        T   SMALL L
              1        1         8
              2        1        10
              3        2         9
              4        3         9

 SY= 33     (2S+1) L P = -4  10  0
             CH        T   SMALL L
              1        1         9
              2        1        11
              3        2        10
              4        3        10

 SY= 34     (2S+1) L P = -4  10  1
             CH        T   SMALL L
              1        1        10

 SY= 35     (2S+1) L P = -4  11  0
             CH        T   SMALL L
              1        1        11

 SY= 36     (2S+1) L P = -4  11  1
             CH        T   SMALL L
              1        1        10
              2        1        12
              3        2        11
              4        3        11


  SLATER COEFFICIENTS  F(A,...)  FOR CONSTRUCTING  ( CH !  H  ! CHP ) = SUM( F(A,...) * R(A,...) )
      -1 -1   -1   -1 2500000 9995 STORAGE RESTRICTIONS FOR (MAXAD,MAXSL,MAXDI,MAXDI,MAXRK,MAXRL), MXDFS= -1
    NCYC SY   CH  CHP     MNF  MNR   I(R)  F(A,...)   I(R)  F(A,...)   I(R)  F(A,...)   I(R)  F(A,...)   I(R)  F(A,...)   I(R)  F(A,...)
     199 36    4    4     400   28

 SLATER STATE INTERACTION STORAGE (MXRKS,MXRLS)  2500000  9995          USED:       40     6
                                  (MXSTX)         400000                USED:       55

 *** PRINTOUT OF COEFFICIENTS SUPPRESSED - MPRINT(MODULO 5)= 0


 NOT ENOUGH VCC'S AVAILABLE FOR CALCULATION OF RELATIVISTIC CORRECTIONS: CHANGE MOD  TO 1,-1 OR 0


 CPU TIME=    0.000 MIN     TOTAL CPU TIME=    0.002 MIN



 ----------------------------------------------------------------------------------------------------------------------------------------

                                                  *** COLLISION HAMILTONIAN (LS) ***

 ----------------------------------------------------------------------------------------------------------------------------------------




 THE   8  INPUT SCATTERED CONTINUUM ENERGIES (RYD) ARE AS FOLLOWS:

  1     0.000  2     0.200  3     0.600  4     1.000  5     3.000  6     5.000  7     9.000  8    13.000


 THE   2  CHARACTERISTIC EXCITATION ENERGIES (RYD) ARE AS FOLLOWS:

  0     0.000  1     3.000


 THE  15  CONTINUUM INTERPOLATION ENERGIES (RYD) ARE AS FOLLOWS:

  1     0.000  2     0.200  3     0.600  4     1.000  5     3.000  6     3.200  7     3.600  8     4.000  9     5.000 10     6.000
 11     8.000 12     9.000 13    12.000 14    13.000 15    16.000


 THE SCATTERED ENERGIES ARE MAPPED TO THE INTERPOLATION ENERGIES AS FOLLOWS:

   1  1   2  2   3  3   4  4   5  5   6  9   7 12   8 14

 WHERE AN NLAG= 2-POINT LAGRANGE INTERPOLATION IS TO BE USED.

 RESULTANT TOTAL NUMBER OF ENERGY INTEGRAL PAIRS:  86

   1  1   2  1   3  1   4  1   5  1   6  1   7  1   1  2   2  2   3  2   4  2   5  2   6  2   7  2   8  2   1  3   2  3   3  3   4  3   5  3
   6  3   7  3   8  3   9  3   1  4   2  4   3  4   4  4   5  4   6  4   7  4   8  4   9  4  10  4   1  5   2  5   3  5   4  5   5  5   6  5
   7  5   8  5   9  5  10  5  11  5  12  5   1  6   2  6   3  6   4  6   5  6   1  7   2  7   3  7   4  7   5  7   2  8   3  8   4  8   5  8
   3  9   4  9   5  9   9  9  10  9  11  9  12  9  13  9   4 10   5 10   9 10   5 11   9 11   5 12   9 12  12 12  13 12  14 12  15 12   9 13
  12 13  12 14  14 14  15 14  12 15  14 15



 CONTINUUM S.M.-POTENTIAL WITH SCALE FACTOR   1.10000;  COULOMBIC BEYOND R(IEND=  382) =  2.900133

 REDUCING RADIAL EXTENT FROM  X( 1074)=  21.233  TO  X(  933)=  16.053  FOR SCATTERING INTEGRALS




 ----------------------------------------------------------------------------------------------------------------------------------------


                                                 *** TARGET ENERGIES (LS) ***

         I         T              2S+1 L   CF                    (EI-E1)/RY               NMETA=    3
         1         2                 2 0    1                      0.000000
         2         3                 2 0    2                      3.000000
         3         1                -2 1    3                      3.000000


 ----------------------------------------------------------------------------------------------------------------------------------------



 *** UPDATING SLATER INTEGRALS FOR LTOT=  0
 ------------------------------------------



 SY=  1     (2S+1) L P =  1   0  0
 ---------------------------------
             CH        T   SMALL L
              1        1         1
              2        2         0
              3        3         0

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    2    1      1   3    3.713E-02  3.749E-02  3.649E-02  3.449E-02  2.414E-02  1.749E-02  1.053E-02  7.175E-03
    3    1      2   3    4.728E-01  4.673E-01  4.851E-01  4.044E-01  1.383E-01  6.578E-02  2.514E-02  1.325E-02
    2    3      1   2    3.387E-02  3.605E-02  3.846E-02  3.904E-02  3.276E-02  2.559E-02  1.680E-02  1.221E-02


 SY=  2     (2S+1) L P =  3   0  0
 ---------------------------------
             CH        T   SMALL L
              1        1         1
              2        2         0
              3        3         0

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    2    1      1   3    1.112E-04  8.860E-09  3.606E-04  1.232E-03  6.640E-03  9.642E-03  1.072E-02  9.735E-03
    3    1      2   3    3.868E-01  1.252E+00  1.027E+00  8.543E-01  3.688E-01  1.940E-01  7.874E-02  4.206E-02
    2    3      1   2    2.203E-02  1.794E-02  1.296E-02  1.034E-02  7.602E-03  8.184E-03  9.195E-03  9.327E-03


 *** UPDATING SLATER INTEGRALS FOR LTOT=  1
 ------------------------------------------



 SY=  3     (2S+1) L P =  1   1  0
 ---------------------------------
             CH        T   SMALL L
              1        1         1

   CH  CHP      I  IP    OMEGA(IE=1,MENG):


 SY=  4     (2S+1) L P =  1   1  1
 ---------------------------------
             CH        T   SMALL L
              1        1         0
              2        1         2
              3        2         1
              4        3         1

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    3    1      1   3    4.495E-02  4.747E-02  4.892E-02  4.738E-02  3.066E-02  1.917E-02  9.094E-03  5.279E-03
    4    1      2   3    1.415E+00  9.469E-01  1.110E-02  1.982E-01  1.893E-01  9.462E-02  3.409E-02  1.701E-02
    3    2      1   3    3.541E-05  7.805E-05  1.927E-04  3.310E-04  9.849E-04  1.334E-03  1.481E-03  1.382E-03
    4    2      2   3    1.271E-02  5.608E-02  3.213E-02  9.403E-03  2.965E-04  7.243E-04  5.811E-04  4.014E-04
    3    4      1   2    4.949E-02  5.375E-02  5.909E-02  6.160E-02  5.857E-02  5.037E-02  3.730E-02  2.905E-02


 SY=  5     (2S+1) L P =  3   1  0
 ---------------------------------
             CH        T   SMALL L
              1        1         1

   CH  CHP      I  IP    OMEGA(IE=1,MENG):


 SY=  6     (2S+1) L P =  3   1  1
 ---------------------------------
             CH        T   SMALL L
              1        1         0
              2        1         2
              3        2         1
              4        3         1

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    3    1      1   3    7.736E-03  4.298E-03  1.374E-03  5.053E-04  3.554E-04  1.074E-03  2.206E-03  2.512E-03
    4    1      2   3    2.601E+00  3.597E+00  4.140E+00  2.417E+00  3.106E-01  1.378E-01  5.767E-02  3.253E-02
    3    2      1   3    7.077E-04  1.282E-03  2.334E-03  3.199E-03  5.302E-03  5.681E-03  5.239E-03  4.554E-03
    4    2      2   3    1.124E+00  6.279E-01  1.378E-01  5.214E-02  6.844E-03  3.681E-03  1.955E-03  1.260E-03
    3    4      1   2    2.319E-02  2.399E-02  2.494E-02  2.555E-02  2.794E-02  2.954E-02  3.018E-02  2.914E-02


 *** UPDATING SLATER INTEGRALS FOR LTOT=  2
 ------------------------------------------



 SY=  7     (2S+1) L P =  1   2  0
 ---------------------------------
             CH        T   SMALL L
              1        1         1
              2        1         3
              3        2         2
              4        3         2

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    3    1      1   3    3.982E-01  3.930E-01  3.667E-01  3.332E-01  1.960E-01  1.236E-01  6.089E-02  3.615E-02
    4    1      2   3    2.333E+00  2.572E-01  6.390E-02  6.481E-03  7.548E-03  5.904E-03  2.581E-03  1.337E-03
    3    2      1   3    5.644E-06  2.623E-05  9.171E-05  1.656E-04  3.405E-04  2.776E-04  1.019E-04  2.389E-05
    4    2      2   3    1.013E-01  8.113E-01  7.959E-01  6.256E-01  1.649E-01  6.076E-02  1.615E-02  6.732E-03
    3    4      1   2    9.654E-05  2.578E-04  8.281E-04  1.699E-03  7.882E-03  1.310E-02  1.802E-02  1.901E-02


 SY=  8     (2S+1) L P =  1   2  1
 ---------------------------------
             CH        T   SMALL L
              1        1         2

   CH  CHP      I  IP    OMEGA(IE=1,MENG):


 SY=  9     (2S+1) L P =  3   2  0
 ---------------------------------
             CH        T   SMALL L
              1        1         1
              2        1         3
              3        2         2
              4        3         2

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    3    1      1   3    3.965E-05  5.801E-04  3.181E-03  6.980E-03  2.551E-02  3.394E-02  3.468E-02  2.997E-02
    4    1      2   3    3.773E-01  1.536E+00  2.484E-01  4.002E-02  1.445E-03  6.689E-04  4.134E-06  4.720E-05
    3    2      1   3    3.342E-06  1.612E-05  6.072E-05  1.181E-04  3.613E-04  4.629E-04  5.026E-04  4.919E-04
    4    2      2   3    1.964E-02  1.025E+00  8.044E-01  5.884E-01  1.998E-01  9.633E-02  3.438E-02  1.655E-02
    3    4      1   2    4.081E-03  7.424E-03  1.360E-02  1.873E-02  3.202E-02  3.605E-02  3.755E-02  3.677E-02


 SY= 10     (2S+1) L P =  3   2  1
 ---------------------------------
             CH        T   SMALL L
              1        1         2

   CH  CHP      I  IP    OMEGA(IE=1,MENG):


 *** UPDATING SLATER INTEGRALS FOR LTOT=  3
 ------------------------------------------



 SY= 11     (2S+1) L P =  1   3  0
 ---------------------------------
             CH        T   SMALL L
              1        1         3

   CH  CHP      I  IP    OMEGA(IE=1,MENG):


 SY= 12     (2S+1) L P =  1   3  1
 ---------------------------------
             CH        T   SMALL L
              1        1         2
              2        1         4
              3        2         3
              4        3         3

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    3    1      1   3    2.316E-02  4.159E-02  7.397E-02  9.857E-02  1.377E-01  1.243E-01  8.622E-02  6.046E-02
    4    1      2   3    3.116E+00  1.060E+00  1.056E+00  8.147E-01  1.823E-01  5.913E-02  1.365E-02  5.340E-03
    3    2      1   3    1.445E-07  2.863E-06  2.603E-05  7.767E-05  5.432E-04  8.969E-04  1.023E-03  8.578E-04
    4    2      2   3    1.511E-02  7.781E-01  8.763E-01  8.221E-01  4.078E-01  2.058E-01  7.293E-02  3.467E-02
    3    4      1   2    1.800E-08  6.609E-09  2.716E-06  1.947E-05  6.736E-04  2.262E-03  5.950E-03  8.665E-03


 SY= 13     (2S+1) L P =  3   3  0
 ---------------------------------
             CH        T   SMALL L
              1        1         3

   CH  CHP      I  IP    OMEGA(IE=1,MENG):


 SY= 14     (2S+1) L P =  3   3  1
 ---------------------------------
             CH        T   SMALL L
              1        1         2
              2        1         4
              3        2         3
              4        3         3

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    3    1      1   3    1.573E-02  2.832E-02  5.101E-02  6.930E-02  1.104E-01  1.136E-01  9.711E-02  7.894E-02
    4    1      2   3    7.597E+00  6.484E-01  4.475E-01  3.361E-01  1.716E-01  1.006E-01  4.135E-02  2.081E-02
    3    2      1   3    3.032E-08  5.851E-07  5.130E-06  1.499E-05  1.073E-04  1.957E-04  2.730E-04  2.653E-04
    4    2      2   3    3.227E-02  2.037E+00  1.892E+00  1.564E+00  6.892E-01  3.774E-01  1.570E-01  8.280E-02
    3    4      1   2    4.893E-05  2.486E-04  1.033E-03  2.199E-03  9.662E-03  1.588E-02  2.324E-02  2.677E-02


 *** UPDATING SLATER INTEGRALS FOR LTOT=  4
 ------------------------------------------



 SY= 15     (2S+1) L P =  1   4  0
 ---------------------------------
             CH        T   SMALL L
              1        1         3
              2        1         5
              3        2         4
              4        3         4

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    3    1      1   3    6.860E-04  3.283E-03  1.225E-02  2.374E-02  7.232E-02  8.995E-02  8.512E-02  6.997E-02
    4    1      2   3    2.283E+00  8.274E-01  9.730E-01  9.290E-01  4.521E-01  2.192E-01  7.335E-02  3.376E-02
    3    2      1   3    1.420E-09  1.644E-07  3.809E-06  1.777E-05  3.162E-04  7.891E-04  1.434E-03  1.605E-03
    4    2      2   3    1.701E-03  6.939E-01  7.751E-01  7.743E-01  5.406E-01  3.393E-01  1.508E-01  8.003E-02
    3    4      1   2    1.407E-09  1.711E-08  2.550E-08  2.608E-08  4.917E-05  3.381E-04  1.673E-03  3.342E-03


 SY= 16     (2S+1) L P =  1   4  1
 ---------------------------------
             CH        T   SMALL L
              1        1         4

   CH  CHP      I  IP    OMEGA(IE=1,MENG):


 SY= 17     (2S+1) L P =  3   4  0
 ---------------------------------
             CH        T   SMALL L
              1        1         3
              2        1         5
              3        2         4
              4        3         4

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    3    1      1   3    1.229E-03  5.789E-03  2.104E-02  3.993E-02  1.161E-01  1.443E-01  1.420E-01  1.225E-01
    4    1      2   3    6.652E+00  2.004E+00  1.751E+00  1.389E+00  6.086E-01  3.513E-01  1.567E-01  8.545E-02
    3    2      1   3    1.688E-09  1.904E-07  4.218E-06  1.900E-05  3.095E-04  7.601E-04  1.433E-03  1.698E-03
    4    2      2   3    4.917E-03  2.045E+00  2.117E+00  1.948E+00  1.134E+00  7.079E-01  3.374E-01  1.915E-01
    3    4      1   2    1.983E-07  4.248E-06  4.462E-05  1.518E-04  1.813E-03  4.557E-03  1.012E-02  1.443E-02


 SY= 18     (2S+1) L P =  3   4  1
 ---------------------------------
             CH        T   SMALL L
              1        1         4

   CH  CHP      I  IP    OMEGA(IE=1,MENG):


 *** UPDATING SLATER INTEGRALS FOR LTOT=  5
 ------------------------------------------



 SY= 19     (2S+1) L P =  1   5  0
 ---------------------------------
             CH        T   SMALL L
              1        1         5

   CH  CHP      I  IP    OMEGA(IE=1,MENG):


 SY= 20     (2S+1) L P =  1   5  1
 ---------------------------------
             CH        T   SMALL L
              1        1         4
              2        1         6
              3        2         5
              4        3         5

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    3    1      1   3    1.291E-05  2.441E-04  2.060E-03  5.814E-03  3.594E-02  5.872E-02  7.262E-02  6.868E-02
    4    1      2   3    8.376E-01  7.068E-01  8.029E-01  8.138E-01  5.777E-01  3.584E-01  1.551E-01  8.083E-02
    3    2      1   3    7.735E-12  6.939E-09  4.016E-07  2.818E-06  1.100E-04  3.786E-04  9.749E-04  1.351E-03
    4    2      2   3    1.526E-04  6.205E-01  6.666E-01  6.627E-01  5.188E-01  3.733E-01  2.017E-01  1.207E-01
    3    4      1   2    5.519E-12  5.039E-10  5.771E-09  6.938E-09  3.259E-06  4.706E-05  4.305E-04  1.169E-03


 SY= 21     (2S+1) L P =  3   5  0
 ---------------------------------
             CH        T   SMALL L
              1        1         5

   CH  CHP      I  IP    OMEGA(IE=1,MENG):


 SY= 22     (2S+1) L P =  3   5  1
 ---------------------------------
             CH        T   SMALL L
              1        1         4
              2        1         6
              3        2         5
              4        3         5

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    3    1      1   3    3.234E-05  6.044E-04  4.992E-03  1.382E-02  8.000E-02  1.265E-01  1.532E-01  1.455E-01
    4    1      2   3    2.511E+00  2.067E+00  2.106E+00  1.901E+00  1.065E+00  6.701E-01  3.282E-01  1.900E-01
    3    2      1   3    2.321E-11  2.082E-08  1.205E-06  8.454E-06  3.300E-04  1.136E-03  2.925E-03  4.052E-03
    4    2      2   3    4.577E-04  1.861E+00  2.000E+00  1.988E+00  1.556E+00  1.120E+00  6.050E-01  3.620E-01
    3    4      1   2    3.974E-10  5.136E-08  1.447E-06  7.998E-06  2.675E-04  1.041E-03  3.597E-03  6.479E-03


 *** UPDATING SLATER INTEGRALS FOR LTOT=  6
 ------------------------------------------



 SY= 23     (2S+1) L P =  1   6  0
 ---------------------------------
             CH        T   SMALL L
              1        1         5
              2        1         7
              3        2         6
              4        3         6

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    3    1      1   3    1.642E-07  1.747E-05  3.500E-04  1.448E-03  1.776E-02  3.701E-02  5.777E-02  6.180E-02
    4    1      2   3    1.686E-01  6.268E-01  6.836E-01  6.969E-01  5.980E-01  4.389E-01  2.331E-01  1.357E-01
    3    2      1   3    4.215E-14  3.907E-10  5.781E-08  6.132E-07  5.180E-05  2.400E-04  8.308E-04  1.356E-03
    4    2      2   3    1.081E-05  5.579E-01  5.920E-01  5.953E-01  5.251E-01  4.202E-01  2.610E-01  1.697E-01
    3    4      1   2    2.269E-14  2.618E-11  2.360E-09  2.425E-08  3.629E-06  2.914E-05  2.183E-04  5.972E-04


 SY= 24     (2S+1) L P =  1   6  1
 ---------------------------------
             CH        T   SMALL L
              1        1         6

   CH  CHP      I  IP    OMEGA(IE=1,MENG):


 SY= 25     (2S+1) L P =  3   6  0
 ---------------------------------
             CH        T   SMALL L
              1        1         5
              2        1         7
              3        2         6
              4        3         6

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    3    1      1   3    4.635E-07  4.901E-05  9.698E-04  3.965E-03  4.632E-02  9.336E-02  1.406E-01  1.483E-01
    4    1      2   3    5.059E-01  1.876E+00  1.988E+00  1.925E+00  1.355E+00  9.489E-01  5.205E-01  3.208E-01
    3    2      1   3    1.264E-13  1.172E-09  1.734E-07  1.840E-06  1.554E-04  7.199E-04  2.492E-03  4.068E-03
    4    2      2   3    3.243E-05  1.674E+00  1.776E+00  1.786E+00  1.575E+00  1.260E+00  7.830E-01  5.091E-01
    3    4      1   2    6.806E-14  7.853E-11  7.080E-09  7.276E-08  1.089E-05  8.743E-05  6.550E-04  1.792E-03


 SY= 26     (2S+1) L P =  3   6  1
 ---------------------------------
             CH        T   SMALL L
              1        1         6

   CH  CHP      I  IP    OMEGA(IE=1,MENG):


 *** UPDATING SLATER INTEGRALS FOR LTOT=  7
 ------------------------------------------



 SY= 27     (2S+1) L P = -4   7  0
 ---------------------------------
             CH        T   SMALL L
              1        1         7

   CH  CHP      I  IP    OMEGA(IE=1,MENG):


 SY= 28     (2S+1) L P = -4   7  1
 ---------------------------------
             CH        T   SMALL L
              1        1         6
              2        1         8
              3        2         7
              4        3         7

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    3    1      1   3    5.884E-09  4.804E-06  2.349E-04  1.428E-03  3.407E-02  8.829E-02  1.671E-01  1.976E-01
    4    1      2   3    8.951E-02  2.245E+00  2.383E+00  2.396E+00  2.112E+00  1.688E+00  1.047E+00  6.801E-01
    3    2      1   3    7.770E-16  8.516E-11  3.209E-08  5.109E-07  9.063E-05  5.523E-04  2.501E-03  4.725E-03
    4    2      2   3    2.462E-06  2.016E+00  2.114E+00  2.131E+00  2.008E+00  1.737E+00  1.212E+00  8.501E-01
    3    4      1   2    6.631E-17  8.310E-13  2.122E-10  3.593E-09  1.543E-06  1.948E-05  2.323E-04  8.198E-04


 *** UPDATING SLATER INTEGRALS FOR LTOT=  8
 ------------------------------------------



 SY= 29     (2S+1) L P = -4   8  0
 ---------------------------------
             CH        T   SMALL L
              1        1         7
              2        1         9
              3        2         8
              4        3         8

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    3    1      1   3    3.979E-11  3.289E-07  4.028E-05  3.627E-04  1.720E-02  5.604E-02  1.294E-01  1.688E-01
    4    1      2   3    8.679E-03  2.024E+00  2.123E+00  2.140E+00  2.016E+00  1.743E+00  1.215E+00  8.515E-01
    3    2      1   3    3.403E-18  4.578E-12  4.439E-09  1.058E-07  3.858E-05  3.041E-04  1.761E-03  3.800E-03
    4    2      2   3    1.147E-07  1.832E+00  1.904E+00  1.918E+00  1.870E+00  1.708E+00  1.310E+00  9.826E-01
    3    4      1   2    3.478E-20  6.051E-15  4.444E-12  1.244E-10  1.545E-07  3.078E-06  5.859E-05  2.671E-04


 SY= 30     (2S+1) L P = -4   8  1
 ---------------------------------
             CH        T   SMALL L
              1        1         8

   CH  CHP      I  IP    OMEGA(IE=1,MENG):


 *** UPDATING SLATER INTEGRALS FOR LTOT=  9
 ------------------------------------------



 SY= 31     (2S+1) L P = -4   9  0
 ---------------------------------
             CH        T   SMALL L
              1        1         9

   CH  CHP      I  IP    OMEGA(IE=1,MENG):


 SY= 32     (2S+1) L P = -4   9  1
 ---------------------------------
             CH        T   SMALL L
              1        1         8
              2        1        10
              3        2         9
              4        3         9

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    3    1      1   3    2.052E-13  2.201E-08  6.845E-06  9.154E-05  8.617E-03  3.516E-02  9.835E-02  1.407E-01
    4    1      2   3    6.468E-04  1.838E+00  1.910E+00  1.924E+00  1.876E+00  1.713E+00  1.313E+00  9.841E-01
    3    2      1   3    2.270E-21  2.158E-13  6.118E-10  2.200E-08  1.633E-05  1.645E-04  1.197E-03  2.915E-03
    4    2      2   3    4.512E-09  1.676E+00  1.730E+00  1.741E+00  1.725E+00  1.634E+00  1.349E+00  1.073E+00
    3    4      1   2    1.370E-23  4.125E-17  8.805E-14  4.086E-12  1.473E-08  4.643E-07  1.416E-05  8.349E-05


 *** UPDATING SLATER INTEGRALS FOR LTOT= 10
 ------------------------------------------



 SY= 33     (2S+1) L P = -4  10  0
 ---------------------------------
             CH        T   SMALL L
              1        1         9
              2        1        11
              3        2        10
              4        3        10

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    3    1      1   3    8.333E-16  1.451E-09  1.157E-06  2.303E-05  4.301E-03  2.194E-02  7.402E-02  1.156E-01
    4    1      2   3    3.828E-05  1.680E+00  1.734E+00  1.744E+00  1.729E+00  1.637E+00  1.352E+00  1.074E+00
    3    2      1   3    1.106E-18  9.822E-15  8.856E-11  4.624E-09  6.937E-06  8.867E-05  7.993E-04  2.177E-03
    4    2      2   3    1.558E-10  1.542E+00  1.583E+00  1.592E+00  1.590E+00  1.540E+00  1.346E+00  1.124E+00
    3    4      1   2    4.194E-27  2.670E-19  1.668E-15  1.286E-13  1.350E-09  6.741E-08  3.304E-06  2.523E-05


 SY= 34     (2S+1) L P = -4  10  1
 ---------------------------------
             CH        T   SMALL L
              1        1        10

   CH  CHP      I  IP    OMEGA(IE=1,MENG):


 *** UPDATING SLATER INTEGRALS FOR LTOT= 11
 ------------------------------------------



 SY= 35     (2S+1) L P = -4  11  0
 ---------------------------------
             CH        T   SMALL L
              1        1        11

   CH  CHP      I  IP    OMEGA(IE=1,MENG):


 SY= 36     (2S+1) L P = -4  11  1
 ---------------------------------
             CH        T   SMALL L
              1        1        10
              2        1        12
              3        2        11
              4        3        11

   CH  CHP      I  IP    OMEGA(IE=1,MENG):
    3    1      1   3    2.788E-18  9.548E-11  1.952E-07  5.784E-06  2.145E-03  1.366E-02  5.540E-02  9.419E-02
    4    1      2   3    1.844E-06  1.545E+00  1.586E+00  1.595E+00  1.592E+00  1.543E+00  1.348E+00  1.126E+00
    3    2      1   3    0.000E+00  0.000E+00  0.000E+00  0.000E+00  0.000E+00  0.000E+00  0.000E+00  0.000E+00
    4    2      2   3    0.000E+00  0.000E+00  0.000E+00  0.000E+00  0.000E+00  0.000E+00  0.000E+00  0.000E+00
    3    4      1   2    1.026E-30  1.657E-21  3.050E-17  3.909E-15  1.197E-10  9.481E-09  7.479E-07  7.409E-06


 *** TOP-UP HAS BEEN APPLIED: LRGLAM=   11


   CH  CHP         S              EI          EJ          DE         OMEGA(PAR)  OMEGA(TOP)    OMEGA(TOT)
    1    3    -8.322E-01        3.0000      0.0000      3.0000           0.5298      0.0000        0.5298
    1    3    -8.322E-01        3.2000      0.2000      3.0000           0.5642      0.0000        0.5642
    1    3    -8.322E-01        3.6000      0.6000      3.0000           0.6267      0.0000        0.6267
    1    3    -8.322E-01        4.0000      1.0000      3.0000           0.6862      0.0000        0.6862
    1    3    -8.322E-01        6.0000      3.0000      3.0000           0.9752      0.0021        0.9773
    1    3    -8.322E-01        8.0000      5.0000      3.0000           1.2217      0.0226        1.2444
    1    3    -8.322E-01       12.0000      9.0000      3.0000           1.5120      0.1650        1.6769
    1    3    -8.322E-01       16.0000     13.0000      3.0000           1.5993      0.4065        2.0058
    2    3    -1.350E+01        0.0000      0.0000      0.0000          32.6691      0.0000       32.6691
    2    3    -1.350E+01        0.2000      0.2000      0.0000          47.0604    617.6627      664.7231
    2    3    -1.350E+01        0.6000      0.6000      0.0000          45.3156    657.6578      702.9734
    2    3    -1.350E+01        1.0000      1.0000      0.0000          41.3237    676.1387      717.4624
    2    3    -1.350E+01        3.0000      3.0000      0.0000          29.8654    715.7201      745.5854
    2    3    -1.350E+01        5.0000      5.0000      0.0000          23.5552    734.1286      757.6838
    2    3    -1.350E+01        9.0000      9.0000      0.0000          15.8336    755.3026      771.1362
    2    3    -1.350E+01       13.0000     13.0000      0.0000          11.2999    768.5471      779.8469



 ----------------------------------------------------------------------------------------------------------------------------------------

                                                   *** TOTAL COLLISION STRENGTHS (LS) ***

 ----------------------------------------------------------------------------------------------------------------------------------------


                                                                          OMEGA(I-IP)
                                                                          -----------
  *FINAL* ENERGY(RYD)       1-   2     1-   3     2-   3
                0.000    1.328E-01  5.298E-01  3.267E+01
                0.200    1.397E-01  5.642E-01  6.647E+02
                0.600    1.510E-01  6.267E-01  7.030E+02
                1.000    1.593E-01  6.862E-01  7.175E+02
                3.000    1.793E-01  9.773E-01  7.456E+02
                5.000    1.871E-01  1.244E+00  7.577E+02
                9.000    1.953E-01  1.677E+00  7.711E+02
               13.000    2.000E-01  2.006E+00  7.798E+02


 CPU TIME=    0.009 MIN     TOTAL CPU TIME=    0.011 MIN



 -----------------------------------------------------------------------------------------------------------------------------------


 SUMMARY OF STORAGE USED-


    NAME      VALUE              NAME      VALUE              NAME      VALUE              NAME      VALUE

   MXAAI          0             MXAAK          0             MAXAD          4             MXADJ          0
   MXAJS          0             MAXB1       1792             MAXB2       1792             MXBIF          2
   MXBLM          2             MXCAS          0             MAXCF          3             MXCHG          2
   MAXCL          0             MAXCT          3             MAXDC         10             MAXDF          1
   MXDFS         28             MAXDI          2             MAXDK          0             MXEL0          2
   MXENG         15             MXEST         18             MXFSL          0             MXFSS          0
   MXFOO          0             MAXGR          3             MXGRB          3             MAXJG          0
   MAXJU          0             MAXLL          7             MAXLV          0             MAXMI          0
   MXNOR          0             MXPOT          0             MAXRK        400             MXRKO          0
   MXRKS         40             MAXRL         28             MXRLO          0             MXRLS          6
   MXROS          0             MXRSS          0             MAXSL         48             MXSOC          0
   MXSOI          0             MXST0         18             MXSTX         55             MXSYJ          0
   MXS1C          0             MXS1I          0             MXS2C          0             MXS2I          0
   MAXTM          3             MAXTR          0             MAXUC          5             MXVAR          3


 *** THIS INCLUDES BUFFER REQUIREMENTS, THE NUMBER OF ACTUAL PHYSICAL QUANTITIES MAYBE LESS ***

-------------------------------------------------------------------------------------------------------------
