[Wien] Continuing: Converging full hybrid calculation

Peter Blaha pblaha at theochem.tuwien.ac.at
Thu Jan 20 21:00:49 CET 2022 

Keep going. DIS is slowly decreasing, ....

Difficult cases do not converge in 15 cycles.

Am 20.01.2022 um 19:12 schrieb shamik chakrabarti:
> Dear Prof. Blaha,
>
>   :DIS are given as
> DIS  :  CHARGE DISTANCE       ( 0.1572817 for atom    6 spin 2)     
>  0.0350296
> :DIS  :  CHARGE DISTANCE       ( 0.1670837 for atom    6 spin 2)     
>  0.0363429
> :DIS  :  CHARGE DISTANCE       ( 0.1545864 for atom    6 spin 2)     
>  0.0349665
> :DIS  :  CHARGE DISTANCE       ( 0.1373922 for atom    6 spin 2)     
>  0.0319180
> :DIS  :  CHARGE DISTANCE       ( 0.1425325 for atom    6 spin 2)     
>  0.0321289
> :DIS  :  CHARGE DISTANCE       ( 0.1485072 for atom    6 spin 2)     
>  0.0335427
> :DIS  :  CHARGE DISTANCE       ( 0.1433955 for atom    6 spin 2)     
>  0.0344125
> :DIS  :  CHARGE DISTANCE       ( 0.1407935 for atom    6 spin 2)     
>  0.0320243
> :DIS  :  CHARGE DISTANCE       ( 0.1454478 for atom    6 spin 2)     
>  0.0334518
> :DIS  :  CHARGE DISTANCE       ( 0.1319306 for atom    6 spin 2)     
>  0.0313744
>
> :CTO are given as, (no. 1 atom is Cr while no. 2 atom is Ti)
>
> CTO001: CHARGE SPHERE  1 UP =    11.860038 DN = 9.567525 TOT =   
>  21.427563
> :CTO001: CHARGE SPHERE  1 UP =    11.859937 DN = 9.567462 TOT =   
>  21.427399
> :CTO001: CHARGE SPHERE  1 UP =    11.860541 DN = 9.566497 TOT =   
>  21.427038
> :CTO001: CHARGE SPHERE  1 UP =    11.859758 DN = 9.566336 TOT =   
>  21.426093
> :CTO001: CHARGE SPHERE  1 UP =    11.860790 DN = 9.565895 TOT =   
>  21.426685
> :CTO001: CHARGE SPHERE  1 UP =    11.862117 DN = 9.566049 TOT =   
>  21.428166
> :CTO001: CHARGE SPHERE  1 UP =    11.862900 DN = 9.565342 TOT =   
>  21.428242
> :CTO001: CHARGE SPHERE  1 UP =    11.862703 DN = 9.565181 TOT =   
>  21.427884
> :CTO001: CHARGE SPHERE  1 UP =    11.863477 DN = 9.564573 TOT =   
>  21.428050
> :CTO001: CHARGE SPHERE  1 UP =    11.863029 DN = 9.564003 TOT =   
>  21.427032
> :CTO002: CHARGE SPHERE  2 UP =     9.756607 DN = 9.427791 TOT =   
>  19.184398
> :CTO002: CHARGE SPHERE  2 UP =     9.755234 DN = 9.427344 TOT =   
>  19.182578
> :CTO002: CHARGE SPHERE  2 UP =     9.752719 DN = 9.430279 TOT =   
>  19.182998
> :CTO002: CHARGE SPHERE  2 UP =     9.752978 DN = 9.432136 TOT =   
>  19.185114
> :CTO002: CHARGE SPHERE  2 UP =     9.753789 DN = 9.432096 TOT =   
>  19.185885
> :CTO002: CHARGE SPHERE  2 UP =     9.753497 DN = 9.432193 TOT =   
>  19.185690
> :CTO002: CHARGE SPHERE  2 UP =     9.752188 DN = 9.432423 TOT =   
>  19.184612
> :CTO002: CHARGE SPHERE  2 UP =     9.752861 DN = 9.432110 TOT =   
>  19.184971
> :CTO002: CHARGE SPHERE  2 UP =     9.750602 DN = 9.433842 TOT =   
>  19.184444
> :CTO002: CHARGE SPHERE  2 UP =     9.750528 DN = 9.434130 TOT =   
>  19.184658
>
> :MMI are given as, (no. 1 atom is Cr while no. 2 atom is Ti)
>
> MMI001: MAGNETIC MOMENT IN SPHERE   1    =    2.29251
> :MMI001: MAGNETIC MOMENT IN SPHERE   1    =    2.29248
> :MMI001: MAGNETIC MOMENT IN SPHERE   1    =    2.29404
> :MMI001: MAGNETIC MOMENT IN SPHERE   1    =    2.29342
> :MMI001: MAGNETIC MOMENT IN SPHERE   1    =    2.29490
> :MMI001: MAGNETIC MOMENT IN SPHERE   1    =    2.29607
> :MMI001: MAGNETIC MOMENT IN SPHERE   1    =    2.29756
> :MMI001: MAGNETIC MOMENT IN SPHERE   1    =    2.29752
> :MMI001: MAGNETIC MOMENT IN SPHERE   1    =    2.29890
> :MMI001: MAGNETIC MOMENT IN SPHERE   1    =    2.29903
> :MMI002: MAGNETIC MOMENT IN SPHERE   2    =    0.32882
> :MMI002: MAGNETIC MOMENT IN SPHERE   2    =    0.32789
> :MMI002: MAGNETIC MOMENT IN SPHERE   2    =    0.32244
> :MMI002: MAGNETIC MOMENT IN SPHERE   2    =    0.32084
> :MMI002: MAGNETIC MOMENT IN SPHERE   2    =    0.32169
> :MMI002: MAGNETIC MOMENT IN SPHERE   2    =    0.32130
> :MMI002: MAGNETIC MOMENT IN SPHERE   2    =    0.31976
> :MMI002: MAGNETIC MOMENT IN SPHERE   2    =    0.32075
> :MMI002: MAGNETIC MOMENT IN SPHERE   2    =    0.31676
> :MMI002: MAGNETIC MOMENT IN SPHERE   2    =    0.31640
>
> -- 
> Dr. Shamik Chakrabarti
> Research Fellow
> Department of Physics
> Indian Institute of Technology Patna
> Bihta-801103
> Patna
> Bihar, India
>
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-- 
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Peter Blaha,  Inst. f. Materials Chemistry, TU Vienna, A-1060 Vienna
Phone: +43-158801165300
Email:peter.blaha at tuwien.ac.at           
WWW:http://www.imc.tuwien.ac.at       WIEN2k:http://www.wien2k.at
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