PROGRAM A22cgGS1 C CCC for LJ potential CCCCCCCCCCCCCCCCCCCCCCCCCCCCCCCC C for 22*3-dimensional version Lennard-Johns-Potential C -- the LJ routine is from D. Wales C output in file at22gs.weg, usable for Mathematica input C to visualize the calculated path C*cccccccccccccccccccccccccccccccccccccccccccccccccccccc C W.Quapp 30.09.2004 for RGF=Newton Trajectory c C GS nach: Baron Peters et al. JCP 120 (2004)7877-7886 c c script version - modular structure of program c cccccccccccccccccccccccccccccccccccccccccccccccccccccccc C eps: tolerance C L : chain length, maximum 52 C are to defined by the user C nodes: L-2 C N : dimension of the problem C here N=66 given by the problem C Y(LA,N) are the chain nodes, LA=1,..,L+1 cccccccccccccccccccccccccccccccccccccccccccccccccccccccc Integer NDIM,L PARAMETER(NDIM=66,L=25) REAL*8 Y(L+1,NDIM),Yb(NDIM),Ye(NDIM) Integer N,J,I,LA,ITall,Natoms(22) c c 7: all points of chain for Mma output OPEN(17,FILE='at22start.weg') cccccccccccccccccccccccccccccccccccccccc c 8,81: minima input min1, min2 of LJ_22 c use factor 3.4 for scaling of the Wales-structur OPEN(8,FILE='LJ22NebenMin.dat') OPEN(81,FILE='LJ22Minimum.dat') cccccccccccccccccccccccccccccccccccccccc c 9: all points of chain OPEN(9,FILE='at22chain.dat') OPEN(11,FILE='at22param.dat') c 13 actual point X of GS iteration OPEN(13,FILE='at22point.dat') c for gaussian data: c OPEN(32,FILE='alaatoms.dat',status='old') OPEN(33,FILE='alapoig.dat') c for molden file: OPEN(38,FILE='at22chain.mol',status='unknown',access='append') OPEN(44,FILE='protocol.txt',status='unknown',access='append') C Constants N=NDIM N3=N/3 eps=0.50000001d0 ITall=0 WRITE(6,*) 'give eps !! now ' Read(5,*) eps c c PRINT*,' Chain from SP1 to SP2 for 22 atoms ' write(44,*)' Chain from MIn1 to Min2 for 22 atoms, TEST ' write(44,*)' Nodes L+1 = ' ,L+1,' threshold eps = ',eps c Start - Kette zwischen den Minima READ(8,*) (Yb(I),I=1,N) write(38,*) ' 22 ' write(38,*) write(38,505) (Yb(I),I=1,N) 505 FORMAT(1X,4H ar ,3F20.10) READ(81,*) (Ye(I),I=1,N) Do 1 J=1,L Do 1 I=1,N c first straigt chain between 2 Minima Y(J,I)= ((L-J)*Yb(I)+(J-1)*Ye(I))/(L-1) 1 continue rewind 9 Do 2, J=1,L 2 WRITE(9,50) (Y(J,I),I=1,N) WRITE(9,50) ( Ye(I),I=1,N) c actual node is LA, node number is LA-1 c so, min1=Y_1, min_fin=Y_L+1 WRITE(17,*) ' { ' Do 6, J=1,L WRITE(17,22)(Y(J,I),I=1,N3) 6 continue WRITE(17,21)(Ye(I),I=1,N3) LA=1 cc rewind 13 WRITE(13,50)(Y(LA,I),I=1,N) c c READ(32,*) (Natoms(I),I=1,N3) Do 18,I=1,N3 18 Natoms(I)=18 WRITE(44,*) ' first point' rewind 33 Do 7 J=1,N3 WRITE(44,*) Natoms(J), (Y(LA,3*(J-1)+I ),I=1,3) 7 WRITE(33,*) Natoms(J), (Y(LA,3*(J-1)+I ),I=1,3) WRITE(33,*) ' ' WRITE(6,*) L, LA, EPS, ITall, N WRITE(44,*) L, LA, EPS, ITall, N rewind 11 I=1 J=0 WRITE(11,*) L, LA, EPS, I, J close(44) 22 FORMAT(3H { , 21(F13.9, 3H , ), F13.9, 3H }, ) 21 FORMAT(3H { , 21(F13.9, 3H , ), F13.9, 3H }} ) 50 FORMAT(1X,3F20.10) Stop End