Incluidas las lineas referidas al input del desplazamiento.
[ptslat.git] / potdrv.f
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1 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
2 ! Program to draw the potential energy from a file containig the strain
3 ! profiles
4 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
9 PROGRAM POT_PROFILE
11 Use Dot_Geometry
13 IMPLICIT NONE
15 INTEGER,PARAMETER :: DIMM=6
17 ***** 'dummy' and local variables **************************************
19 REAL VWE,VWH,DW1,DW2,DW3,VBE,VBH,DB1,DB2,DB3
21 INTEGER Number_Param,IGEO,NWF
22 REAL VBIEL,VBIHH,VBILH,VBILS,VBISO
23 REAL POTWE,POTWHH,POTWLH,POTWLS,POTWSO,
24 & POTBE,POTBHH,POTBLH,POTBLS,POTBSO
25 REAL C1,C2,D1,D2,D3,D4,D5,D6,BISUM,BIZZ,BIAUX
26 REAL XMU,XLAMB,EPS0
27 REAL RC,ZC,DWL,RHO,ZETA,ZM
29 INTEGER I,IIR,J,K,IZ,IR
31 !! GRID RESULTS OF STRAIN
33 REAL,ALLOCATABLE,DIMENSION(:,:,:) :: MSUM, MDIF, MRR,
34 & M00, MZZ, MRZ,
35 & MHID, MTIL
37 !! GRID RESULTS OF PIEZOELECTRIC POTENTIAL
39 REAL,ALLOCATABLE,DIMENSION(:,:,:) :: PTOT
41 !! GRID RESULTS OF POTENTIALS
43 REAL,ALLOCATABLE,DIMENSION(:,:,:) :: EEL, EHHUP, EHHDW,
44 & ELHUP, ELHDW, ESOUP,
45 & ESODW, ELAST
47 !! FRACTIONAL COORDINATES AND GEOM. PARAMETERS
49 REAL,ALLOCATABLE :: XVALS(:), YVALS(:), RADI(:,:), ZETI(:,:), PAR(:)
51 !! HAMILTONIAN
53 REAL HKANE(1:DIMM,1:DIMM)
54 INTEGER CHI
56 !! DIAGONALIZATION VARIABLES
58 REAL W(1:DIMM), WORK(1:10*DIMM), AW(1:DIMM,1:DIMM),
59 & ROOT(DIMM), CARAC(DIMM), SLAMCH
60 INTEGER IWORK(DIMM*5), IFAIL(DIMM), INFO, NUM
63 !! DEFROMATION POTENTIALS AND ENERGY PROFILES
64 REAL,DIMENSION(0:1) :: POTE, POTHH, POTLH, POTSO, POTLS,
65 & PC1, PC2, PD1, PD2, PD3, PD4, PD5, PD6
67 REAL ERR,E00,EZZ,ERZ,ESUM,EDIF,PZO
69 !!!!!!! COMMON BLOCKS !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
71 CHARACTER(LEN=120) :: input_str,input_pzo,output_eng
72 COMMON /FILES/ input_str,input_pzo,output_eng
74 REAL CARAC_MAX
75 COMMON /CARAC/ CARAC_MAX
77 !! MORE INOUT.INC VARIABLES
79 LOGICAL :: DIAGLOG,PZOLOG,STRLOG,DWLLOG
80 COMMON /LOGICS/ DIAGLOG,PZOLOG,STRLOG
82 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
84 INCLUDE 'INC/inout.inc'
86 ! Allocating Arrays
88 ALLOCATE(MSUM(0:NWF,0:NWF,1:Number_Param),
89 & MDIF(0:NWF,0:NWF,1:Number_Param),
90 & MRR(0:NWF,0:NWF,1:Number_Param),
91 & M00(0:NWF,0:NWF,1:Number_Param),
92 & MZZ(0:NWF,0:NWF,1:Number_Param),
93 & MRZ(0:NWF,0:NWF,1:Number_Param),
94 & MHID(0:NWF,0:NWF,1:Number_Param),
95 & MTIL(0:NWF,0:NWF,1:Number_Param),
96 & PTOT(0:NWF,0:NWF,1:Number_Param))
98 ALLOCATE(EEL(0:NWF,0:NWF,1:Number_Param),
99 & EHHUP(0:NWF,0:NWF,1:Number_Param),
100 & EHHDW(0:NWF,0:NWF,1:Number_Param),
101 & ELHUP(0:NWF,0:NWF,1:Number_Param),
102 & ELHDW(0:NWF,0:NWF,1:Number_Param),
103 & ESOUP(0:NWF,0:NWF,1:Number_Param),
104 & ELAST(0:NWF,0:NWF,1:Number_Param),
105 & ESODW(0:NWF,0:NWF,1:Number_Param))
107 ALLOCATE(XVALS(0:NWF),YVALS(0:NWF),RADI(1:Number_Param,1:3),
108 & ZETI(1:Number_Param,1:2),PAR(1:Number_Param))
110 ! Definition of parameters for Barrier and Well
112 VWE=VWE+DW1+DW2
113 VBE=VBE+DB1+DB2
115 POTWE = VWE
116 POTWHH = (VWH+DW1+DW2)
117 POTWLH = (VWH+(DW1-DW2+4.E0*DW3)/3.E0)
118 POTWSO = (VWH+2.E0*(DW1-DW2-2.E0*DW3)/3.E0)
119 POTWLS = (DW1-DW2+DW3)
120 POTBE = VBE
121 POTBHH = (VBH+DB1+DB2)
122 POTBLH = (VBH+(DB1-DB2+4.E0*DB3)/3.E0)
123 POTBSO = (VBH+2.E0*(DB1-DB2-2.E0*DB3)/3.E0)
124 POTBLS = (DB1-DB2+DB3)
126 IF(.NOT.STRLOG) THEN
127 VBIEL= ( C2*BISUM + C1*BIZZ )
128 VBIHH= ( (D2+D4)*BISUM + (D1+D3)*BIZZ )
129 VBILH= ( (D2+D4/3.)*BISUM + (D1+D3/3.)*BIZZ )
130 VBISO=( (D2+2.*D4/3.)*BISUM + (D1+2.*D3/3.)*BIZZ )
131 VBILS= ( D4*BISUM + D3*BIZZ )
133 ! Potential edges including strain effect
134 POTWE= (POTWE+VBIEL)
135 POTWHH= (POTWHH+VBIHH)
136 POTWLH= (POTWLH+VBILH)
137 POTWSO= (POTWSO+VBISO)
138 POTWLS= (POTWLS+VBILS)
139 END IF
141 POTE(0) = POTBE ; POTE(1) = POTWE
142 POTHH(0) = POTBHH ; POTHH(1) = POTWHH
143 POTLH(0) = POTBLH ; POTLH(1) = POTWLH
144 POTLS(0) = POTBLS ; POTLS(1) = POTWLS
145 POTSO(0) = POTBSO ; POTSO(1) = POTWSO
147 ! Deformation potentials for barrier and well are equal
149 PC1(0) = C1 ; PC1(1) = C1
150 PC2(0) = C2 ; PC2(1) = C2
151 PD1(0) = D1 ; PD1(1) = D1
152 PD2(0) = D2 ; PD2(1) = D2
153 PD3(0) = D3 ; PD3(1) = D3
154 PD4(0) = D4 ; PD4(1) = D4
155 PD5(0) = D5 ; PD5(1) = D5
156 PD6(0) = D6 ; PD6(1) = D6
158 IF(STRLOG) THEN
160 CALL STR_UNPACK(MSUM,MDIF,MRR,M00,MZZ,MRZ,MHID,MTIL,Number_Param,NWF,
161 & RADI,ZETI,PAR,XVALS,YVALS)
162 ELSE
164 MSUM=0.E0; MDIF=0.E0; MRR=0.E0; M00=0.E0; MZZ=0.E0; MRZ=0.E0
165 MHID=0.E0; MTIL=0.E0
167 END IF
169 IF(PZOLOG) THEN
171 CALL PZO_UNPACK(Number_Param,NWF,PTOT,RADI,ZETI,PAR,XVALS,YVALS)
173 ELSE
175 PTOT=0.E0
177 END IF
179 DO IGEO=1,Number_Param
181 IIR=0
183 Rqd_Base = RADI(IGEO,1)
184 Rqd_Top = RADI(IGEO,2)
185 Hqd = ZETI(IGEO,1)
186 ZC = ZETI(IGEO,2)
187 RC = RADI(IGEO,3)
188 write(12,*)Rqd_Base,Rqd_Top,Hqd,ZC,RC
190 !! In case that the parameter would be DWL:
191 IF(DWLLOG) DWL = PAR(IGEO)
193 DO IR=NWF/2,NWF
195 RHO = XVALS(IR)*RC
197 IF (RHO.LE.Rqd_Base) THEN
198 CALL SHAPERTOZ(RHO,ZM)
199 write(12,*)RHO,ZM
200 ELSE
201 ZM = 0.E0
202 write(12,*)RHO,ZM
203 END IF
206 DO IZ=0,NWF
208 ZETA = YVALS(IZ)*ZC
210 ERR = MRR(IR,IZ,Number_Param)
211 E00 = M00(IR,IZ,Number_Param)
212 EZZ = MZZ(IR,IZ,Number_Param)
213 ERZ = MRZ(IR,IZ,Number_Param)
214 ESUM = MSUM(IR,IZ,Number_Param)
215 EDIF = MDIF(IR,IZ,Number_Param)
216 PZO = PTOT(IR,IZ,Number_Param)
218 CHI=0
219 IF (ZETA.GE.-DWL .AND. ZETA.LE.ZM) CHI=1
221 HKANE(1,1)=POTHH(CHI)-PZO+
222 & (PD1(CHI)+PD3(CHI))*EZZ+(PD2(CHI)+PD4(CHI))*ESUM
224 HKANE(2,2)=POTLH(CHI)-PZO+(PD1(CHI)+PD3(CHI)/3.E0)*EZZ+
225 & (PD2(CHI)+PD4(CHI)/3.E0)*ESUM
226 HKANE(3,3)=HKANE(2,2)
227 HKANE(4,4)=HKANE(1,1)
228 HKANE(5,5)=POTSO(CHI)-PZO+(PD1(CHI)+2.E0*PD3(CHI)/3.E0)*EZZ+
229 & (PD2(CHI)+2.E0*PD4(CHI)/3.E0)*ESUM
230 HKANE(6,6)=HKANE(5,5)
232 IF(.NOT.DIAGLOG.AND.STRLOG) THEN
234 HKANE(1,2)=-SQRT(2.E0/3.E0)*PD6(CHI)*ERZ
235 HKANE(1,3)=-1.E0/SQRT(3.E0)*PD5(CHI)*EDIF
236 HKANE(1,4)=0.
237 HKANE(1,5)=1.E0/SQRT(3.E0)*PD6(CHI)*ERZ
238 HKANE(1,6)=SQRT(2./3.)*PD5(CHI)*EDIF
240 HKANE(2,3)=0.
241 HKANE(2,4)=HKANE(1,3)
242 HKANE(2,5)=SQRT(2.E0)/3.E0*(POTLS(CHI)+(PD3(CHI)*EZZ+PD4(CHI)*ESUM))
243 HKANE(2,6)=-PD6(CHI)*ERZ
245 HKANE(3,4)=-HKANE(1,2)
246 HKANE(3,5)=HKANE(2,6)
247 HKANE(3,6)=-HKANE(2,5)
249 HKANE(4,5)=-HKANE(1,6)
250 HKANE(4,6)=HKANE(1,5)
252 HKANE(5,6)=0
256 DO I=1,6
257 DO J=I+1,6
258 HKANE(J,I)=HKANE(I,J)
259 END DO
260 END DO
262 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
263 !! Analytic solutions for Rho = 0.
264 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
266 ! ZETA = ZMIN+ZINC*IZ ! XZ normalized to ZC
268 ! W(1)=(HKANE(2,2)+HKANE(5,5))+
269 ! & SQRT( (HKANE(2,2)-HKANE(5,5))**2+4.*HKANE(3,6)**2 )
270 ! W(2)=(HKANE(2,2)+HKANE(5,5))-
271 ! & SQRT( (HKANE(2,2)-HKANE(5,5))**2+4.*HKANE(3,6)**2 )
272 ! write(24,'(4(f18.8,1x))')ZETA,HKANE(1,1),W(1)/2.,W(2)/2.
274 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
277 CALL SSYEVX('V','A','U',DIMM,HKANE,DIMM,0.,0.,2,2,
278 & 2*SLAMCH('S'),NUM,W,AW,DIMM,WORK,10*DIMM,IWORK,IFAIL,INFO)
280 IF (INFO.ne.0) then
281 write(6,*)"Not Succesful Exit. Stopping. INFO=",INFO
282 write(6,'(A,10(I2,1X))')"IFAIL=",IFAIL(1:DIMM)
283 write(6,*)"IR=",IR," IZ=",IZ
284 ! STOP
285 END IF
287 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
288 !! Ordering Eigenvalues according to the Bloch func. caracter
289 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
291 ROOT = 0.E0
293 DO I=1,6,2
294 ! Calculo de la componentes dependientes del spin
295 DO J=1,6
296 CARAC(J)=AW(J,I)*AW(J,I)
297 END DO
298 ! Suma de componentes independientemente del spin (hh_up + hh_dw, lh_up + lh_dw)
299 CARAC(1)=CARAC(1)+CARAC(4)
300 CARAC(4)=CARAC(1)
301 CARAC(2)=CARAC(2)+CARAC(3)
302 CARAC(3)=CARAC(2)
303 CARAC(5)=CARAC(5)+CARAC(6)
304 CARAC(6)=CARAC(5)
306 ! Peso de las componentes de las que se extraeran los autovalores.
308 IF (CARAC(1).GE.CARAC_MAX) THEN ! HH
309 ROOT(4)=W(I)
310 END IF
311 IF (CARAC(2).GE.CARAC_MAX) THEN ! LH
312 ROOT(3)=W(I)
313 END IF
314 IF (CARAC(5).GE.CARAC_MAX) THEN ! SO
315 ROOT(1)=W(I)
316 END IF
318 END DO
320 ELSE ! Only the diagonal elements were calculated
322 ROOT(4)=HKANE(1,1)
323 ROOT(3)=HKANE(2,2)
324 ROOT(1)=HKANE(5,5)
325 ROOT(2)=HKANE(6,6) !Redundant
328 END IF
330 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
331 !! RESULTS
332 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
334 EEL(IR,IZ,IGEO) = POTE(CHI)-PZO+(PC1(CHI)*EZZ+PC2(CHI)*ESUM)
336 EHHUP(IR,IZ,IGEO) = ROOT(4)
337 ELHUP(IR,IZ,IGEO) = ROOT(3)
338 ELHDW(IR,IZ,IGEO) = ROOT(3)
339 EHHDW(IR,IZ,IGEO) = ROOT(4)
341 ESOUP(IR,IZ,IGEO) = ROOT(1)
342 ESODW(IR,IZ,IGEO) = ROOT(1)
343 ! ESODW(IR,IZ,IGEO) = CHI ! To save the Structure-profile
345 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
346 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
347 !!!!! Calculation of the Elastic Energy. Since EEL contains no information
348 !!!!! we will use this array to pack the Elastic Energy.
349 !!!!!
350 !!!!! U=1/2*XLAMB*Tr(e)**2+XMU*(err**2+e00**2+ezz**2+erz**2)
351 !!!!!
352 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
353 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
355 ELAST(IR,IZ,IGEO)=XMU*(ERR**2 + E00**2 + EZZ**2 + ERZ**2) +
356 & 0.5*XLAMB*(ERR + E00 + EZZ)**2
358 IIR=1
359 END DO
361 END DO
363 END DO
366 DO IGEO=1,Number_Param
367 DO IZ=0,NWF
368 DO IR=0,NWF/2-1
369 EEL(ir,iz,IGEO)=EEL(NWF-IR,iz,IGEO)
370 EHHUP(ir,iz,IGEO)=EHHUP(NWF-IR,iz,IGEO)
371 EHHDW(ir,iz,IGEO)=EHHDW(NWF-IR,iz,IGEO)
372 ELHUP(ir,iz,IGEO)=ELHUP(NWF-IR,iz,IGEO)
373 ELHDW(ir,iz,IGEO)=ELHDW(NWF-IR,iz,IGEO)
374 ESOUP(ir,iz,IGEO)=ESOUP(NWF-IR,iz,IGEO)
375 ESODW(ir,iz,IGEO)=ESODW(NWF-IR,iz,IGEO)
376 ELAST(ir,iz,IGEO)=ELAST(NWF-IR,iz,IGEO)
377 END DO
378 END DO
379 END DO
381 CALL POT_PACK(EEL,EHHUP,ELHUP,ELHDW,EHHDW,
382 & ESOUP,ESODW,ELAST,Number_Param,NWF,RADI,ZETI,PAR,XVals,YVals)
384 END PROGRAM POT_PROFILE