La subrutina open_over se ha incluido dentro de este modulo con procesos
[ptslat.git] / pzo_mod.f90
blobf8fe1efac72c82acae0a9a50a2790118a832c8f4
1 MODULE PZO_CALC
3 IMPLICIT NONE
5 CONTAINS
7 SUBROUTINE PZOISO(POTSP,POTPZ)
8 Use Input_Data
9 IMPLICIT NONE
10 REAL, INTENT( OUT) :: POTSP,POTPZ
12 REAL :: DPZ_1,DPZ_S
14 !!! COMMON
15 REAL :: RHO,ZETA,ETA
16 COMMON /QAGON/RHO,ZETA,ETA
18 ETA=1.E0
19 CALL PREST(PZ_1=DPZ_1,PZ_S=DPZ_S)
21 POTSP=CPZ*CSP*RC*DPZ_1
22 POTPZ=CPZ*RC*((CPZ_Q1+CPZ_Q2/2.E0)*DPZ_1+CPZ_Q2*DPZ_S)
24 RETURN
26 END SUBROUTINE PZOISO
28 SUBROUTINE PZOANISO(POTSP,POTPZ)
29 Use Input_Data
30 IMPLICIT NONE
31 REAL, INTENT( OUT) :: POTSP,POTPZ
33 REAL :: DPZ_1,DPZ_ETA1,DPZ_ETA2
35 !!! COMMON
36 REAL :: RHO,ZETA,ETA
37 COMMON /QAGON/RHO,ZETA,ETA
39 ETA=1.E0
40 CALL PREST(PZ_1=DPZ_1,PZ_ETA1=DPZ_ETA1,PZ_ETA2=DPZ_ETA2)
42 POTSP=CPZ*CSP*RC*DPZ_1
43 POTPZ=CPZ*RC*( CI1*DPZ_1 +&
44 CI2*( CNP31_1*DPZ_ETA2 - CNP31_2*DPZ_ETA1 )/ETA_DIF +&
45 CI3/((1.E0-ETA1)*(1.E0-ETA2)) *&
46 ( (CNE_2-CNE_1)*DPZ_1 +&
47 (CNE2_1*DPZ_ETA2 - CNE2_2*DPZ_ETA1)/ETA_DIF ) )
48 RETURN
50 END SUBROUTINE PZOANISO
52 SUBROUTINE PREST(PZ_1,PZ_S,PZ_ETA1,PZ_ETA2)
54 Use Input_Data, ONLY: RD,RC,ZC,ETA1,ETA2
56 IMPLICIT NONE
58 !! 'dummy' and local variables !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
60 REAL PZ_1
61 REAL,OPTIONAL :: PZ_S,PZ_ETA1,PZ_ETA2
63 DOUBLE PRECISION DPZ_1,DPZ_S,DPZ_ETA1,DPZ_ETA2
64 !! GAG Variables !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
66 INTEGER, PARAMETER :: LIMITE=100
67 DOUBLE PRECISION AL,AU,ABSERR,EPSABS,EPSREL,WORK(4*LIMITE),RO,ZE
68 INTEGER IER,IWORK(LIMITE),KEY,LAST,LENW,LIMIT,NEVAL
70 DOUBLE PRECISION, EXTERNAL :: I_FI00,I_FDA00
72 !!! COMMON
73 REAL :: RHO,ZETA,ETA
74 COMMON /QAGON/RHO,ZETA,ETA
76 !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
77 DOUBLE PRECISION RHOP
79 RO=RHO
80 ZE=ZETA
81 AL=0.D0
82 AU=DBLE(RD)
84 EPSABS=0.D0
85 EPSREL=1.D-4
86 KEY=6
87 LIMIT=LIMITE
88 LENW=LIMIT*4
90 ! WRITE(6,*)RHO*RC,ZETA*ZC
91 ! ETA=1.E0
92 ! DO IER=1,1000
93 ! RHOP=DBLE(IER-1)*RD/DBLE(999)
94 ! WRITE(55,'(10(E15.8,1X))')RHOP*RC,I_FDA00(RHOP)
95 ! END DO
96 ! STOP
98 ETA=1.E0
99 CALL DQAG(I_FI00,AL,AU,EPSABS,EPSREL,KEY,DPZ_1,ABSERR,NEVAL, &
100 IER,LIMIT,LENW,LAST,IWORK,WORK)
101 IF (IER.NE.0) &
102 CALL DQAG_CHECK("FI00","PZ_1",DPZ_1,ABSERR,RO*RC,ZE*ZC,NEVAL,IER,LAST)
104 PZ_1=REAL(DPZ_1)
105 IF(PRESENT(PZ_S)) THEN
106 ETA=1.E0
107 CALL DQAG(I_FDA00,AL,AU,EPSABS,EPSREL,KEY,DPZ_S,ABSERR,NEVAL, &
108 IER,LIMIT,LENW,LAST,IWORK,WORK)
109 IF (IER.NE.0) &
110 CALL DQAG_CHECK("FDA00","PZ_S",DPZ_S,ABSERR,RO*RC,ZE*ZC,NEVAL,IER,LAST)
112 PZ_S=REAL(DPZ_S)
113 END IF
114 IF(PRESENT(PZ_ETA1).AND.PRESENT(PZ_ETA2)) THEN
115 ETA=ETA1
116 CALL DQAG(I_FI00,AL,AU,EPSABS,EPSREL,KEY,DPZ_ETA1,ABSERR,NEVAL, &
117 IER,LIMIT,LENW,LAST,IWORK,WORK)
118 IF (IER.NE.0) &
119 CALL DQAG_CHECK("FI00","PZ_ETA1",DPZ_ETA1,ABSERR,RO*RC,ZE*ZC,NEVAL,IER,LAST)
121 ETA=ETA2
122 CALL DQAG(I_FI00,AL,AU,EPSABS,EPSREL,KEY,DPZ_ETA2,ABSERR,NEVAL, &
123 IER,LIMIT,LENW,LAST,IWORK,WORK)
124 IF (IER.NE.0) &
125 CALL DQAG_CHECK("FI00","PZ_ETA2",DPZ_ETA2,ABSERR,RO*RC,ZE*ZC,NEVAL,IER,LAST)
126 PZ_ETA1=REAL(DPZ_ETA1); PZ_ETA2=REAL(DPZ_ETA2)
127 END IF
129 RETURN
130 END SUBROUTINE PREST
132 SUBROUTINE DQAG_CHECK(FUNC,RESNAME,RES,ABSERR,RO,ZE,NEVAL,IER,LAST)
133 IMPLICIT NONE
134 CHARACTER(LEN=*) :: FUNC,RESNAME
135 DOUBLE PRECISION :: RES,ABSERR,RO,ZE
136 INTEGER :: NEVAL,IER,LAST
137 WRITE(6,*)"ERROR AT: RHO: ",RO," ZETA: ",ZE
138 WRITE(6,*)"QAG ",TRIM(FUNC)," ",TRIM(RESNAME)," RESULT=",RES
139 WRITE(6,*)"QAG ABSERR=",ABSERR
140 WRITE(6,*)"QAG NEVAL=",NEVAL
141 WRITE(6,*)"QAG IER=",IER
142 WRITE(6,*)"QAG LAST=",LAST
144 RETURN
145 END SUBROUTINE DQAG_CHECK
147 FUNCTION FI00(RHO,ZETA,RHOP,ZM,ETA) RESULT(I00)
148 Use Input_Data, ONLY: RC,ZC
149 Use ELIPT_MOD
151 IMPLICIT NONE
152 DOUBLE PRECISION, INTENT(IN) :: RHO,ZETA,RHOP,ZM,ETA
153 DOUBLE PRECISION :: I00
155 DOUBLE PRECISION :: PI,DPI
156 DOUBLE PRECISION :: DELTAM,DELTA0,&
157 KM,K0,CKM,CK0,KKM,KK0
160 PI = DATAN(1.D0)*4.D0
161 DPI = 2.D0*PI
163 DELTAM = SQRT(ETA)*DABS(ZETA-ZM)*ZC/RC
164 DELTA0 = SQRT(ETA)*DABS(ZETA)*ZC/RC
166 IF(RHO.EQ.0.D0) THEN
167 I00=(1.D0/DSQRT(DELTAM**2+RHOP**2)) - &
168 (1.D0/DSQRT(DELTA0**2+RHOP**2))
169 I00 = I00/2.D0
170 RETURN
171 END IF
173 KM = 2.D0*DSQRT( RHO*RHOP/((RHO+RHOP)**2+DELTAM**2) )
174 K0 = 2.D0*DSQRT( RHO*RHOP/((RHO+RHOP)**2+DELTA0**2) )
176 CKM = (1.D0-KM**2)
177 CK0 = (1.D0-K0**2)
179 CALL ELIPTK0(KM,KKM)
180 CALL ELIPTK0(K0,KK0)
182 !!!!! I00 expressed in terms of RHO,RHOP,DELTA !!!!!!!!!!!!!!!!!!!
184 I00 = 2.D0/PI*(1.D0/DSQRT(DELTAM**2+(RHO+RHOP)**2)*KKM - &
185 1.D0/DSQRT(DELTA0**2+(RHO+RHOP)**2)*KK0)
187 I00=I00/2.D0
190 RETURN
193 END FUNCTION FI00
195 FUNCTION FDA00(RHO,ZETA,RHOP,ZM,ETA) RESULT(DA00)
196 Use Input_Data, ONLY: RC,ZC
197 Use ELIPT_MOD
199 IMPLICIT NONE
200 DOUBLE PRECISION, INTENT(IN) :: RHO,ZETA,RHOP,ZM,ETA
201 DOUBLE PRECISION :: DA00
203 DOUBLE PRECISION :: PI,DPI
204 DOUBLE PRECISION :: SRRHOP,RRHOP15,DELTAM,DELTA0,&
205 KM,K0,CKM,CK0,KKM,KK0,EKM,EK0
207 PI = DATAN(1.D0)*4.D0
208 DPI = 2.D0*PI
210 SRRHOP=SQRT(RHO*RHOP)
211 RRHOP15=SQRT(RHO*RHOP)**3
213 DELTAM = DSQRT(ETA)*DABS(ZETA-ZM)*ZC/RC
214 DELTA0 = DSQRT(ETA)*DABS(ZETA)*ZC/RC
216 KM = 2.D0*DSQRT( RHO*RHOP/((RHO+RHOP)**2+DELTAM**2) )
217 K0 = 2.D0*DSQRT( RHO*RHOP/((RHO+RHOP)**2+DELTA0**2) )
219 CKM = (1.D0-KM**2)
220 CK0 = (1.D0-K0**2)
222 CALL ELIPT0(KM,KKM,EKM)
223 CALL ELIPT0(K0,KK0,EK0)
225 IF (RHO .EQ. 0.D0) THEN
226 DA00 = ( DELTAM**2/SQRT(RHOP**2+DELTAM**2)**3) &
227 -(DELTA0**2/SQRT(RHOP**2+DELTA0**2)**3 )
228 DA00 = DA00/4.D0
229 RETURN
230 END IF
232 DA00 = DELTAM**2*KM**3/(2.D0*DPI*CKM*RRHOP15)*EKM &
233 -DELTA0**2*K0**3/(2.D0*DPI*CK0*RRHOP15)*EK0
235 DA00 = DA00/4.D0
237 RETURN
239 END FUNCTION FDA00
242 END MODULE PZO_CALC