Hello,<div><br></div><div>excited state gradients are not currently implemented.</div><div><br></div><div>Matt<br><br></div><div class="gmail_quote"><div dir="auto" class="gmail_attr">On Sunday, September 20, 2020 at 3:37:15 AM UTC+1 ha...@gmail.com wrote:<br/></div><blockquote class="gmail_quote" style="margin: 0 0 0 0.8ex; border-left: 1px solid rgb(204, 204, 204); padding-left: 1ex;">Hi, <div><br></div><div>I am trying to optimize the geomitry of the<b> first</b> excited singlet state (S1) by TDDFT.</div><div><br></div><div>Is there a way to do it, such as below? </div><div>(I know we can calcualte the absorption spectrum by changing the RUN_TYPE from <b>GEO_OPT </b>to <b>ENERGY.)</b></div><div><b><br></b></div><div>Thx!</div><div><br></div><div><div>&GLOBAL</div><div> PREFERRED_FFT_LIBRARY FFTW3</div><div> PREFERRED_DIAG_LIBRARY SL</div><div> PROJECT example</div><div> RUN_TYPE <b>GEO_OPT</b></div><div> PRINT_LEVEL MEDIUM</div><div>&END GLOBAL </div><div><br></div><div>&FORCE_EVAL</div><div> METHOD Quickstep</div><div><br></div><div> &PROPERTIES</div><div> &TDDFPT</div><div> NSTATES 1<br></div><div> MAX_ITER 50</div><div> CONVERGENCE 1.0e-5</div><div><br></div><div> &MGRID</div><div> CUTOFF 300</div><div> &END MGRID</div><div><br></div><div> &END TDDFPT</div><div> &END PROPERTIES</div><div><br></div><div> &DFT</div><div> BASIS_SET_FILE_NAME GTH_BASIS_SETS</div><div> POTENTIAL_FILE_NAME POTENTIAL</div><div> LSD</div><div> CHARGE 0</div><div> MULTIPLICITY 1</div><div><br></div><div> &MGRID</div><div> CUTOFF 300</div><div> &END MGRID</div><div> </div><div> &QS</div><div> METHOD GPW</div><div> EPS_DEFAULT 1.0E-12</div><div> EXTRAPOLATION ASPC</div><div> EXTRAPOLATION_ORDER 3</div><div> EPS_PGF_ORB 1.0E-20</div><div> &END QS</div><div> </div><div> &SCF</div><div> MAX_SCF 50</div><div> SCF_GUESS RESTART </div><div> EPS_SCF 1.0E-6 </div><div> &OT </div><div> MINIMIZER DIIS </div><div> Rotation</div><div> &END OT</div><div> &OUTER_SCF</div><div> MAX_SCF 10</div><div> EPS_SCF 1.0E-6</div><div> &END OUTER_SCF</div><div> &END SCF</div><div> &XC</div><div> &XC_FUNCTIONAL PBE</div><div> &END XC_FUNCTIONAL</div><div> &VDW_POTENTIAL</div><div> DISPERSION_FUNCTIONAL PAIR_POTENTIAL</div><div> &PAIR_POTENTIAL</div><div> TYPE DFTD3</div><div> CALCULATE_C9_TERM .TRUE.</div><div> REFERENCE_C9_TERM .TRUE.</div><div> LONG_RANGE_CORRECTION .TRUE.</div><div> VERBOSE_OUTPUT .FALSE.</div><div> REFERENCE_FUNCTIONAL PBE</div><div> PARAMETER_FILE_NAME dftd3.dat</div><div> R_CUTOFF 9</div><div> EPS_CN 1.0E-6</div><div> &END PAIR_POTENTIAL</div><div> &END VDW_POTENTIAL</div><div> &END XC</div><div> </div><div> &PRINT</div><div> &MO_CUBES MEDIUM </div><div> NHOMO 3</div><div><span style="white-space:pre"> </span>NLUMO 3</div><div> ADD_LAST NUMERIC </div><div> &END MO_CUBES</div><div> &END PRINT</div><div> &END DFT</div><div> &SUBSYS</div><div> &CELL</div><div> ABC 18.81000 18.81000 18.81000</div><div> ALPHA_BETA_GAMMA 90 90 90</div><div> PERIODIC XYZ</div><div> &END CELL</div><div> &TOPOLOGY </div><div> CONNECTIVITY OFF</div><div> &GENERATE </div><div> CREATE_MOLECULES </div><div> &END GENERATE </div><div> COORD_FILE S0-GS-CS.xyz</div><div> COORD_FILE_FORMAT XYZ</div><div> &CENTER_COORDINATES TRUE</div><div> &END CENTER_COORDINATES</div><div> &END TOPOLOGY </div><div>&KIND C</div><div> BASIS_SET TZV2P-GTH</div><div> POTENTIAL GTH-PBE-q4</div><div> &END KIND</div><div> &KIND H</div><div> BASIS_SET TZV2P-GTH</div><div> POTENTIAL GTH-PBE-q1</div><div> &END KIND</div><div> &KIND O</div><div> BASIS_SET TZV2P-GTH</div><div> POTENTIAL GTH-PBE-q6</div><div> &END KIND</div><div> &KIND N</div><div> BASIS_SET TZV2P-GTH</div><div> POTENTIAL GTH-PBE-q5</div><div> &END KIND</div><div> <span style="white-space:pre"> </span></div><div> &END SUBSYS</div><div> </div><div>&END FORCE_EVAL</div></div></blockquote></div>