Example 7.129 Input for a RAS-2SF-CI calculation of three states of the DDMX tetraradical using RASCI1. The active space (RAS2) contains electrons in the singly occupied orbitals in the ROHF quintet reference. Natural orbital occupancies are requested.
$molecule 0 5 C 0.000000 0.000000 1.092150 C -1.222482 0.000000 0.303960 C -2.390248 0.000000 1.015958 H -2.344570 0.000000 2.095067 H -3.363161 0.000000 0.537932 C -1.215393 0.000000 -1.155471 H -2.150471 0.000000 -1.702536 C 0.000000 0.000000 -1.769131 C 1.215393 0.000000 -1.155471 H 2.150471 0.000000 -1.702536 C 1.222482 0.000000 0.303960 C 2.390248 0.000000 1.015958 H 2.344570 0.000000 2.095067 H 3.363161 0.000000 0.537932 $end $rem EXCHANGE hf CORRELATION rasci BASIS 6-31g UNRESTRICTED false MEM_TOTAL 4000 MEM_STATIC 100 RAS_ROOTS 3 RAS_ACT 4 RAS_ELEC 4 RAS_OCC 25 RAS_SPIN_MULT 0 RAS_NATORB true $end
Example 7.130 Input for a RAS-2IP-CI calculation of triplet states of F molecule using the dianion closed shell F as the reference determinant. RASCI1 code is used
$molecule -2 1 F F 1 1.4136 $end $rem EXCHANGE hf CORRELATION rasci BASIS cc-pVTZ MEM_TOTAL 4000 MEM_STATIC 100 RAS_ROOTS 2 RAS_ACT 6 RAS_ELEC 10 RAS_OCC 4 RAS_SPIN_MULT 3 $end
Example 7.131 Input for a FCI/STO-3G calculation of water molecule expanding the RAS2 space to the entire molecular orbital set. RASCI code is used.
$molecule 0 1 O 0.000 0.000 0.120 H -0.762 0.000 -0.479 H 0.762 0.000 -0.479 $end $rem EXCHANGE hf CORRELATION rasci BASIS sto-3g MEM_TOTAL 4000 MEM_STATIC 100 RAS_ROOTS 1 RAS_ACT 7 RAS_ELEC 10 RAS_OCC 0 RAS_SPIN_MULT 1 RAS_DO_HOLE false RAS_DO_PART false $end
Example 7.132 Methylene single spin-flip calculation using RASCI2
$molecule 0 3 C 0.0000000 0.0000000 0.0000000 H -0.8611113 0.0000000 0.6986839 H 0.8611113 0.0000000 0.6986839 $end $rem EXCHANGE HF CORRELATION RASCI2 BASIS cc-pVDZ AUX_BASIS rimp2-cc-pVDZ UNRESTRICTED false RAS_ACT_OCC 1 ! # alpha electrons RAS_ACT_VIR 1 ! # virtuals in active space RAS_ACT_DIFF 0 ! # set to 1 for odd # of e-s RAS_N_ROOTS 4 SET_ITER 25 ! number of iterations in RASCI $end
Example 7.133 Two methylene separated by 10 Å; double spin-flip calculation using RASCI2. Note that the values for this case will not be uniquely defined at the triply-degenerate ground state.
$molecule 0 5 C 0.0000000 0.0000000 0.0000000 H -0.8611113 0.0000000 0.6986839 H 0.8611113 0.0000000 0.6986839 C 0.0000000 10.0000000 0.0000000 H -0.8611113 10.0000000 0.6986839 H 0.8611113 10.0000000 0.6986839 $end $rem EXCHANGE HF CORRELATION RASCI2 BASIS cc-pVDZ AUX_BASIS rimp2-cc-pVDZ RAS_ACT_OCC 2 ! # alpha electrons RAS_ACT_VIR 2 ! # virtuals in active space RAS_ACT_DIFF 0 ! # set to 1 for odd # of e-s UNRESTRICTED false RAS_N_ROOTS 8 SET_ITER 25 $end
Example 7.134 RASCI2 calculation of the nitrogen cation using double spin-flip.
$molecule 1 6 N N 1 4.5 $end $rem EXCHANGE HF CORRELATION RASCI2 BASIS 6-31G* AUX_BASIS rimp2-VDZ RAS_ACT_OCC 3 ! # alpha electrons RAS_ACT_VIR 3 ! # virtuals in active space RAS_ACT_DIFF 1 ! # for odd # e-s, cation UNRESTRICTED false N_FROZEN_CORE 2 N_FROZEN_VIRTUAL 2 RAS_N_ROOTS 8 SET_ITER 25 $end
Example 7.135 CAS-1SF calculation of the nitrogen dimer using casman.
$rem
exchange hf
correlation sf-cas
cas_level_shift 0
basis 6-31g*
aux_basis rimp2-vdz
unrestricted 0
scf_guess core
symmetry 0
sym_ignore 1
$end
$molecule
0 7
N
N,1,R1
R1 2.5
$end
Example 7.136 RAS(3x)+D-1SF calculation of the nitrogen dimer using casman.
$rem
exchange hf
correlation sf-cas(3x)+D
ras_roots 10
basis 6-31g*
aux_basis rimp2-vdz
unrestricted 0
scf_guess read
symmetry 0
sym_ignore 1
$end
$molecule
0 7
N
N,1,R1
R1 2.5
$end
Example 7.137 Custom SF-CAS(2x)2 calculation of the nitrogen dimer cation using casman.
$rem
exchange hf
correlation sf-cas
cas_do_2x 1
cas_qdpt_order 2
cas_level_shift 107
ras_roots 10
basis 6-31g*
aux_basis rimp2-vdz
unrestricted 0
scf_guess core
symmetry 0
sym_ignore 1
$end
$molecule
0 5
O
H,1,R1
H,1,R1,2,109.5
R1 2.0
$end
Example 7.138 RAS(h,p)-1SF calculation of the quartet state of the nitrogen dimer using librassf.
$molecule 0 7 N N 1 1.75 $end $rem EXCHANGE HF CORRELATION RASCI2 BASIS cc-pvdz LIBRASSF 1 RASSF_GUESS 1 RASSF_DELTA_ALPHA 1 RASSF_DELTA_BETA 1 RAS_N_ROOTS 4 RAS_DO_HOLE 1 RAS_DO_PART 1 RAS_NATORB 0 $end
Example 7.139 RAS(h)-1SF-IP calculation of the nitrogen cation using librassf.
$molecule 0 7 N N 1 1.75 $end $rem EXCHANGE HF CORRELATION RASCI2 BASIS cc-pvdz LIBRASSF 1 RASSF_GUESS 1 RASSF_DELTA_ALPHA 1 RASSF_DELTA_BETA 1 RAS_N_ROOTS 4 RAS_DO_HOLE 1 RAS_DO_PART 1 RAS_NATORB 0 $end
Example 7.140 SOC calculation of HSiCl molecule using RASCI2 method with double spin-flip. No NTO analysis is requested within this example.
$molecule 0 1 Si 0.00000 0.00000 0.00000 H 1.56100 0.00000 0.00000 Cl -0.45728 2.01271 0.00000 $end $rem EXCHANGE HF CORRELATION RASCI2 BASIS cc-pVDZ AUX_BASIS rimp2-cc-pVDZ UNRESTRICTED false RAS_ACT_OCC 2 ! # alpha electrons RAS_ACT_VIR 2 ! # virtuals in active space RAS_ACT_DIFF 0 ! # set to 1 for odd # of e-s RAS_N_ROOTS 8 SET_ITER 25 N_FROZEN_CORE fc N_FROZEN_VIRTUAL 0 RAS_CALC_SOC true $end
Example 7.141 SOC calculation followed by NTO analysis of acetophenone molecule using RASCI2 method with double spin-flip.
$molecule 0 1 C -2.517371 0.513126 0.001828 C -1.316451 -0.371636 0.001013 C -1.553894 -1.827349 0.000191 C -2.806559 -2.314044 -0.001563 C -3.962422 -1.432985 -0.002120 C -3.757473 -0.015730 0.000047 C -0.030094 0.202242 0.001108 C 1.208765 -0.658368 -0.000434 O 0.079290 1.457055 0.003022 H 2.079440 -0.009753 -0.004191 H -0.705807 -2.494690 0.000993 H -2.970202 -3.383004 -0.002372 H -4.958256 -1.847303 -0.003648 H -4.620034 0.636483 0.000372 H -2.340078 1.575881 0.003550 H 1.252514 -1.299975 0.880472 H 1.247817 -1.304378 -0.878269 $end $rem EXCHANGE HF CORRELATION RASCI2 BASIS cc-pVDZ AUX_BASIS rimp2-cc-pVDZ UNRESTRICTED false RAS_ACT_OCC 2 ! # alpha electrons RAS_ACT_VIR 2 ! # virtuals in active space RAS_ACT_DIFF 0 ! # set to 1 for odd # of e-s RAS_N_ROOTS 4 SET_ITER 25 N_FROZEN_CORE fc N_FROZEN_VIRTUAL 0 RAS_CALC_SOC true MOLDEN_FORMAT true NTO_PAIRS 2 $end