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== Keywords == | == Keywords for general information == |
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=== CHCK === Check the interface with several external packages. === CTHRD === == Keyworks for processing excited-state information === |
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=== CHCK === | === NFILES === |
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Check the interface with several external packages. | Linked with '''istore''' value in TD-DFT input for loading output. |
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=== NFILES === | == Keyword for geometric derivatives == |
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== Keywords for linear response calculations == | |
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Enable linear response == REDUCED == |
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== REDUCED == | |
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=== CTHRD === |
resp
Contents
Response properties based on DFT/HF theory.
Keywords for general information
IPRT
Print level, >1 gives more information, >2 give more information about integral evaluations.
NPRT
CHCK
Check the interface with several external packages.
CTHRD
== Keyworks for processing excited-state information ===
METHOD
=1, ground state gradients; =2, excited-state calculations which will load TD-DFT output.
NFILES
Linked with istore value in TD-DFT input for loading output.
Keyword for geometric derivatives
GEOM: NORDER
GEOM enables geometric derivatives, NORDER=1, gradient and fo-NACMEs; =2, hessian (not implemented yet.)
Keywords for linear response calculations
LINE
Enable linear response
REDUCED
POLA: AOPER, BOPER, BFREQ
QUAD
HYPE: AOPER, BOPER, BFREQ, COPER, CFREQ
FNAC
SINGLE:STATES
DOUBLE: PAIRS
NORESP
FDIF
STEP
BOHR
IGNORE
Quick guides by examples
The following examples give the minimal inputs for starting response calculations:
Example: first-order NAC
$COMPASS Title nh3 Basis sto-3g Geometry C 0.00000000 -1.20809142 -1.14173975 C 0.00000000 -1.20797607 0.25342015 C 0.00000000 0.00000000 0.95085852 C -0.00000000 1.20797607 0.25342015 C -0.00000000 1.20809142 -1.14173975 C 0.00000000 0.00000000 -1.83922155 H 0.00000000 -2.16045397 -1.69142002 H 0.00000000 -2.16044427 0.80300713 H -0.00000000 2.16044427 0.80300713 H -0.00000000 2.16045397 -1.69142002 H 0.00000000 0.00000000 -2.93882555 F 0.00000000 0.00000000 2.30085848 End geometry skeleton group c(1) nosym $END $xuanyuan direct schwarz $end $scf RHF charge 0 spin 1 THRESHCONV 1.d-10 1.d-8 OPTSCR 1 iaufbau 0 $end $tddft imethod 1 isf 0 iexit 2 itda 1 idiag 1 istore 1 crit_e 1.d-10 crit_vec 1.d-8 lefteig AOKXC DirectGrid $end $resp iprt 1 QUAD FNAC single states 1 1 1 2 double pairs 1 1 1 1 1 1 2 norder 1 method 2 nfiles 1 FDIF step 0.001 ignore 1 noresp $end
To use finite-difference, a script fdiff.py should be used as
./fbdiff.py run.sh input.inp > log
After the calculation is done, an output file input.out will present in the current directory. The log file saves the information during the calculations.
Note: If FDIF is omitted, the analytic calculation will be carried out by simply using the run.sh script.