7 |
C Beta calculation: now the flightpath (instead of cos(theta)) is used |
C Beta calculation: now the flightpath (instead of cos(theta)) is used |
8 |
C Beta calculation: all 4 TDV measurements must be < 4095 (in the old |
C Beta calculation: all 4 TDV measurements must be < 4095 (in the old |
9 |
C routine it was (t1+t2)<8000 |
C routine it was (t1+t2)<8000 |
10 |
C |
C |
11 |
C 08-12-06 WM: |
C 08-12-06 WM: |
12 |
C adc_c-bug : The raw ADC value was multiplied with cos(theta) |
C adc_c-bug : The raw ADC value was multiplied with cos(theta) |
13 |
C and AFTER that there was an if statement "if tof32(right,i,iadc) < 4095" |
C and AFTER that there was an if statement "if tof32(right,i,iadc) < 4095" |
14 |
C |
C |
15 |
C jan-07 GF: ADC/TDCflags(4,12) inserted to flag artificial ADC/TDC |
C jan-07 GF: ADC/TDCflags(4,12) inserted to flag artificial ADC/TDC |
16 |
C values |
C values |
17 |
C jan-07 WM: artificial ADC values created using attenuation calibration |
C jan-07 WM: artificial ADC values created using attenuation calibration |
18 |
C jan-07 WM: artificial TDC values created using xy_coor calibration |
C jan-07 WM: artificial TDC values created using xy_coor calibration |
20 |
C dimension of the paddle +/- 10 cm |
C dimension of the paddle +/- 10 cm |
21 |
C jan-07 WM: if xtofpos=101 then this paddle is not used for beta |
C jan-07 WM: if xtofpos=101 then this paddle is not used for beta |
22 |
C calculation |
C calculation |
23 |
C jan-07 WM: in the xtofpos calculation a check for TDC.ne.4095 was |
C jan-07 WM: in the xtofpos calculation a check for TDC.ne.4095 was |
24 |
C inserted. In the old code one would still calculate a |
C inserted. In the old code one would still calculate a |
25 |
C xtofpos-value even if the TDC information was missing |
C xtofpos-value even if the TDC information was missing |
26 |
C jan-07 WM: flag for PMTs #10 and #35 added, TDC=819 due to bit-shift |
C jan-07 WM: flag for PMTs #10 and #35 added, TDC=819 due to bit-shift |
27 |
C jan-05 WM: bug fixed: claculation of zenith angles using DOTRACK2 |
C jan-05 WM: bug fixed: calculation of zenith angles using DOTRACK2 |
28 |
C was incorrect |
C was incorrect |
29 |
|
C jan-07 WM: bug fixed: in some cases tdc_tw was calculated due to a |
30 |
|
C leftover "xhelp" value |
31 |
|
C apr-07 WM: attenuation fit curve is now a double exponential fit |
32 |
|
C conversion from raw ADC to pC using calibration function |
33 |
|
C new variables xtr_tof(6) and ytr_tof(6) give track position |
34 |
|
C at ToF layers |
35 |
|
C aug-07 WM: artificial ADC creation revised: Now an ADC value is created |
36 |
|
C only if there is a TDC value (before ADC was created in ANY |
37 |
|
C case) |
38 |
|
C jan-08 WM: Major Update: Time Walk correction introduced |
39 |
|
C Additionally we use the information from the "check_charge" |
40 |
|
C function to fill artificial ADC values and make small corrections |
41 |
|
C to the k1-parameter (for Z>2) |
42 |
|
C feb-08 WM: Calculation of beta(13) changed: First a mean beta is calculated, |
43 |
|
C then in a second step we check the residuals of the single |
44 |
|
C measurements, reject if > 10 sigma, calculate chi2 and "quality" |
45 |
|
C beta is taken as good if chi2<20 and quality>10 |
46 |
|
C The function "newbeta" is located in "tofl2com.for" |
47 |
|
C |
48 |
C**************************************************************************** |
C**************************************************************************** |
49 |
IMPLICIT NONE |
IMPLICIT NONE |
50 |
C |
C |
51 |
include 'input_tof.txt' |
include 'input_tof.txt' |
52 |
include 'output_tof.txt' |
include 'output_tof.txt' |
53 |
include 'tofcomm.txt' |
include 'tofcomm.txt' |
54 |
C |
C |
55 |
|
|
56 |
c ======================================= |
c ======================================= |
57 |
c variables for tracking routine |
c variables for tracking routine |
58 |
c ======================================= |
c ======================================= |
77 |
REAL ds |
REAL ds |
78 |
REAL t1,t2,t3,t4 |
REAL t1,t2,t3,t4 |
79 |
REAL yhelp,xhelp,xhelp1,xhelp2 |
REAL yhelp,xhelp,xhelp1,xhelp2 |
80 |
REAL c1,c2,sw,sxw,w_i |
REAL c1,c2 |
81 |
REAL dist,dl,F |
C REAL sw,sxw,w_i |
82 |
INTEGER icount,ievent |
REAL dist,dl,F |
83 |
REAL xhelp_a,xhelp_t |
INTEGER ievent |
84 |
|
C INTEGER icount |
85 |
REAL beta_mean |
C REAL beta_mean |
86 |
|
REAL btemp(12) |
87 |
REAL hepratio |
REAL hepratio |
88 |
|
|
89 |
INTEGER j |
INTEGER j,hitvec(6) |
90 |
|
|
91 |
|
real atten,pc_adc,check_charge,newbeta |
92 |
|
|
93 |
|
|
94 |
REAL theta,phi |
REAL theta,phi |
95 |
C-- DATA ZTOF/53.74,53.04,23.94,23.44,-23.49,-24.34/ !Sergio 9.05.2006 |
C-- DATA ZTOF/53.74,53.04,23.94,23.44,-23.49,-24.34/ !Sergio 9.05.2006 |
96 |
REAL tofarm12 |
REAL tofarm12 |
97 |
PARAMETER (tofarm12 = 29.70) ! from 53.39 to 23.69 |
PARAMETER (tofarm12 = 29.70) ! from 53.39 to 23.69 |
98 |
REAL tofarm23 |
REAL tofarm23 |
99 |
PARAMETER (tofarm23 = 47.61) ! from 23.69 to -23.92 |
PARAMETER (tofarm23 = 47.61) ! from 23.69 to -23.92 |
100 |
REAL tofarm13 |
REAL tofarm13 |
101 |
PARAMETER (tofarm13 = 77.31) ! from 53.39 to -23.92 |
PARAMETER (tofarm13 = 77.31) ! from 53.39 to -23.92 |
102 |
|
|
103 |
|
|
104 |
INTEGER ihelp |
INTEGER ihelp |
105 |
REAL xkorr,xpos |
REAL xkorr,xpos |
106 |
|
|
107 |
|
INTEGER IZ |
108 |
|
REAL k1corrA1,k1corrB1,k1corrC1 |
109 |
|
|
110 |
REAL yl,yh,xl,xh |
REAL yl,yh,xl,xh |
111 |
C |
C |
112 |
REAL hmemor(9000000) |
REAL hmemor(9000000) |
113 |
INTEGER Iquest(100) |
INTEGER Iquest(100) |
114 |
C |
C |
115 |
DATA ievent / 0 / |
DATA ievent / 0 / |
116 |
|
|
117 |
|
INTEGER ifst |
118 |
|
DATA ifst /0/ |
119 |
|
|
120 |
COMMON / pawcd / hmemor |
COMMON / pawcd / hmemor |
121 |
save / pawcd / |
save / pawcd / |
122 |
C |
C |
123 |
Common / QUESTd / Iquest |
Common / QUESTd / Iquest |
124 |
save / questd / |
save / questd / |
125 |
C |
C |
126 |
C Begin ! |
C Begin ! |
127 |
C |
C |
128 |
TOFTRK = 0 |
TOFTRK = 0 |
129 |
|
|
130 |
******************************************************************* |
******************************************************************* |
131 |
|
|
132 |
ievent = ievent +1 |
if (ifst.eq.0) then |
133 |
|
ifst=1 |
134 |
|
|
135 |
C ratio helium to proton ca. 4 |
C ratio helium to proton ca. 4 |
136 |
hepratio = 4.5 |
hepratio = 4. |
137 |
|
|
138 |
offset = 1 |
offset = 1 |
139 |
slope = 2 |
slope = 2 |
146 |
itdc = 1 |
itdc = 1 |
147 |
iadc = 2 |
iadc = 2 |
148 |
|
|
149 |
|
|
150 |
|
k1corrA1 = 0. |
151 |
|
k1corrB1 = -5.0 |
152 |
|
k1corrC1= 8.0 |
153 |
|
|
154 |
|
ENDIF ! ifst |
155 |
|
|
156 |
|
******************************************************************* |
157 |
|
|
158 |
|
ievent = ievent +1 |
159 |
|
|
160 |
do i=1,13 |
do i=1,13 |
161 |
beta_a(i) = 100. |
beta_a(i) = 100. |
162 |
enddo |
enddo |
192 |
THYOUT(j) = 0. |
THYOUT(j) = 0. |
193 |
enddo |
enddo |
194 |
|
|
195 |
|
do j=1,6 |
196 |
|
xtr_tof(j) = 100. |
197 |
|
ytr_tof(j) = 100. |
198 |
|
enddo |
199 |
|
|
200 |
|
|
201 |
C---------------------------------------------------------------------- |
C---------------------------------------------------------------------- |
202 |
C-------------------------get ToF data -------------------------------- |
C-------------------------get ToF data -------------------------------- |
203 |
C we cannot use the tofxx(x,x,x) data from tofl2com since it is |
C we cannot use the tofxx(x,x,x) data from tofl2com since it is |
204 |
C manipulated (Time-walk, artificila ADc and TDC values using ToF |
C manipulated (Time-walk, artificila ADc and TDC values using ToF |
205 |
C standalone information |
C standalone information |
206 |
C---------------------------------------------------------------------- |
C---------------------------------------------------------------------- |
|
C put the adc and tdc values from ntuple into tofxx(i,j,k) variables |
|
207 |
|
|
208 |
|
c put the adc and tdc values from ntuple into tofxx(i,j,k) variables |
209 |
|
|
210 |
do j=1,8 |
do j=1,8 |
211 |
tof11(1,j,2) = adc(ch11a(j),hb11a(j)) |
tof11(1,j,2) = pc_adc(adc(ch11a(j),hb11a(j))) |
212 |
tof11(2,j,2) = adc(ch11b(j),hb11b(j)) |
tof11(2,j,2) = pc_adc(adc(ch11b(j),hb11b(j))) |
213 |
tof11(1,j,1) = tdc(ch11a(j),hb11a(j)) |
tof11(1,j,1) = (tdc(ch11a(j),hb11a(j))) |
214 |
tof11(2,j,1) = tdc(ch11b(j),hb11b(j)) |
tof11(2,j,1) = (tdc(ch11b(j),hb11b(j))) |
215 |
enddo |
enddo |
216 |
|
|
217 |
|
|
218 |
do j=1,6 |
do j=1,6 |
219 |
tof12(1,j,2) = adc(ch12a(j),hb12a(j)) |
tof12(1,j,2) = pc_adc(adc(ch12a(j),hb12a(j))) |
220 |
tof12(2,j,2) = adc(ch12b(j),hb12b(j)) |
tof12(2,j,2) = pc_adc(adc(ch12b(j),hb12b(j))) |
221 |
tof12(1,j,1) = tdc(ch12a(j),hb12a(j)) |
tof12(1,j,1) = (tdc(ch12a(j),hb12a(j))) |
222 |
tof12(2,j,1) = tdc(ch12b(j),hb12b(j)) |
tof12(2,j,1) = (tdc(ch12b(j),hb12b(j))) |
223 |
enddo |
enddo |
224 |
|
|
225 |
do j=1,2 |
do j=1,2 |
226 |
tof21(1,j,2) = adc(ch21a(j),hb21a(j)) |
tof21(1,j,2) = pc_adc(adc(ch21a(j),hb21a(j))) |
227 |
tof21(2,j,2) = adc(ch21b(j),hb21b(j)) |
tof21(2,j,2) = pc_adc(adc(ch21b(j),hb21b(j))) |
228 |
tof21(1,j,1) = tdc(ch21a(j),hb21a(j)) |
tof21(1,j,1) = (tdc(ch21a(j),hb21a(j))) |
229 |
tof21(2,j,1) = tdc(ch21b(j),hb21b(j)) |
tof21(2,j,1) = (tdc(ch21b(j),hb21b(j))) |
230 |
enddo |
enddo |
231 |
|
|
232 |
do j=1,2 |
do j=1,2 |
233 |
tof22(1,j,2) = adc(ch22a(j),hb22a(j)) |
tof22(1,j,2) = pc_adc(adc(ch22a(j),hb22a(j))) |
234 |
tof22(2,j,2) = adc(ch22b(j),hb22b(j)) |
tof22(2,j,2) = pc_adc(adc(ch22b(j),hb22b(j))) |
235 |
tof22(1,j,1) = tdc(ch22a(j),hb22a(j)) |
tof22(1,j,1) = (tdc(ch22a(j),hb22a(j))) |
236 |
tof22(2,j,1) = tdc(ch22b(j),hb22b(j)) |
tof22(2,j,1) = (tdc(ch22b(j),hb22b(j))) |
237 |
enddo |
enddo |
238 |
|
|
239 |
do j=1,3 |
do j=1,3 |
240 |
tof31(1,j,2) = adc(ch31a(j),hb31a(j)) |
tof31(1,j,2) = pc_adc(adc(ch31a(j),hb31a(j))) |
241 |
tof31(2,j,2) = adc(ch31b(j),hb31b(j)) |
tof31(2,j,2) = pc_adc(adc(ch31b(j),hb31b(j))) |
242 |
tof31(1,j,1) = tdc(ch31a(j),hb31a(j)) |
tof31(1,j,1) = (tdc(ch31a(j),hb31a(j))) |
243 |
tof31(2,j,1) = tdc(ch31b(j),hb31b(j)) |
tof31(2,j,1) = (tdc(ch31b(j),hb31b(j))) |
244 |
enddo |
enddo |
245 |
|
|
246 |
do j=1,3 |
do j=1,3 |
247 |
tof32(1,j,2) = adc(ch32a(j),hb32a(j)) |
tof32(1,j,2) = pc_adc(adc(ch32a(j),hb32a(j))) |
248 |
tof32(2,j,2) = adc(ch32b(j),hb32b(j)) |
tof32(2,j,2) = pc_adc(adc(ch32b(j),hb32b(j))) |
249 |
tof32(1,j,1) = tdc(ch32a(j),hb32a(j)) |
tof32(1,j,1) = (tdc(ch32a(j),hb32a(j))) |
250 |
tof32(2,j,1) = tdc(ch32b(j),hb32b(j)) |
tof32(2,j,1) = (tdc(ch32b(j),hb32b(j))) |
251 |
enddo |
enddo |
252 |
|
|
253 |
C---------------------------------------------------------------------- |
C---------------------------------------------------------------------- |
295 |
if (abs(tof32(2,i,iadc)).gt.10000.) tof32(2,i,iadc)= 10000. |
if (abs(tof32(2,i,iadc)).gt.10000.) tof32(2,i,iadc)= 10000. |
296 |
ENDDO |
ENDDO |
297 |
|
|
298 |
C------------------------------------------------------------------- |
C---------------------------------------------------------------------- |
299 |
|
|
300 |
C------read tracking routine |
C------read tracking routine |
301 |
* igoodevent = igoodevent+1 |
* igoodevent = igoodevent+1 |
313 |
c write(*,*) AL_P |
c write(*,*) AL_P |
314 |
|
|
315 |
if (al_p(5).eq.0.) THEN |
if (al_p(5).eq.0.) THEN |
316 |
PRINT *,' TOF - WARNING F77: track with R = 0, discarded' |
c PRINT *,' TOF - WARNING F77: track with R = 0, discarded' |
317 |
GOTO 969 |
GOTO 969 |
318 |
ENDIF |
ENDIF |
319 |
* -------- *** tracking routine *** -------- |
* -------- *** tracking routine *** -------- |
321 |
C call DOTRACK(NPTOF,ZIN,XOUT,YOUT,AL_P,IFAIL) |
C call DOTRACK(NPTOF,ZIN,XOUT,YOUT,AL_P,IFAIL) |
322 |
call DOTRACK2(NPTOF,ZIN,XOUT,YOUT,THXOUT,THYOUT,TLOUT,AL_P,IFAIL) |
call DOTRACK2(NPTOF,ZIN,XOUT,YOUT,THXOUT,THYOUT,TLOUT,AL_P,IFAIL) |
323 |
|
|
|
|
|
324 |
C write(*,*) (TLOUT(i),i=1,6) |
C write(*,*) (TLOUT(i),i=1,6) |
325 |
|
|
326 |
if(IFAIL.ne.0)then |
if(IFAIL.ne.0)then |
327 |
print *,' TOF - WARNING F77: tracking failed ' |
c print *,' TOF - WARNING F77: tracking failed ' |
328 |
goto 969 |
goto 969 |
329 |
endif |
endif |
330 |
* ------------------------------------------ |
* ------------------------------------------ |
331 |
|
|
332 |
969 continue |
969 continue |
333 |
|
|
334 |
|
C--- Fill xtr_tof and ytr_tof: positions from tracker at ToF layers |
335 |
|
do j=1,6 |
336 |
|
xtr_tof(j) = XOUT(j) |
337 |
|
ytr_tof(j) = YOUT(j) |
338 |
|
enddo |
339 |
|
|
340 |
|
|
341 |
C--- convert angles to radian |
C--- convert angles to radian |
342 |
do j=1,6 |
do j=1,6 |
343 |
THXOUT(j) = 3.1415927*THXOUT(j)/180. |
THXOUT(j) = 3.1415927*THXOUT(j)/180. |
417 |
c DATA tof22_x/ -4.5,4.5/ |
c DATA tof22_x/ -4.5,4.5/ |
418 |
c DATA tof31_x/ -6.0,0.,6.0/ |
c DATA tof31_x/ -6.0,0.,6.0/ |
419 |
c DATA tof32_y/ -5.0,0.0,5.0/ |
c DATA tof32_y/ -5.0,0.0,5.0/ |
420 |
c |
c |
421 |
c S11 8 paddles 33.0 x 5.1 cm |
c S11 8 paddles 33.0 x 5.1 cm |
422 |
c S12 6 paddles 40.8 x 5.5 cm |
c S12 6 paddles 40.8 x 5.5 cm |
423 |
c S21 2 paddles 18.0 x 7.5 cm |
c S21 2 paddles 18.0 x 7.5 cm |
448 |
C--------------S12 -------------------------------------- |
C--------------S12 -------------------------------------- |
449 |
|
|
450 |
tof12_i = none_find |
tof12_i = none_find |
451 |
|
|
452 |
xl = -40.8/2. |
xl = -40.8/2. |
453 |
xh = 40.8/2. |
xh = 40.8/2. |
454 |
|
|
465 |
C--------------S21 -------------------------------------- |
C--------------S21 -------------------------------------- |
466 |
|
|
467 |
tof21_i = none_find |
tof21_i = none_find |
468 |
|
|
469 |
xl = -18./2. |
xl = -18./2. |
470 |
xh = 18./2. |
xh = 18./2. |
471 |
|
|
482 |
C--------------S22 -------------------------------------- |
C--------------S22 -------------------------------------- |
483 |
|
|
484 |
tof22_i = none_find |
tof22_i = none_find |
485 |
|
|
486 |
yl = -15./2. |
yl = -15./2. |
487 |
yh = 15./2. |
yh = 15./2. |
488 |
|
|
499 |
C--------------S31 -------------------------------------- |
C--------------S31 -------------------------------------- |
500 |
|
|
501 |
tof31_i = none_find |
tof31_i = none_find |
502 |
|
|
503 |
yl = -15.0/2. |
yl = -15.0/2. |
504 |
yh = 15.0/2. |
yh = 15.0/2. |
505 |
|
|
516 |
C--------------S32 -------------------------------------- |
C--------------S32 -------------------------------------- |
517 |
|
|
518 |
tof32_i = none_find |
tof32_i = none_find |
519 |
|
|
520 |
xl = -18.0/2. |
xl = -18.0/2. |
521 |
xh = 18.0/2. |
xh = 18.0/2. |
522 |
|
|
533 |
|
|
534 |
C write(*,*) tof11_i,tof12_i,tof21_i,tof22_i,tof31_i,tof32_i |
C write(*,*) tof11_i,tof12_i,tof21_i,tof22_i,tof31_i,tof32_i |
535 |
|
|
536 |
C----------------------------------------------------------------------- |
hitvec(1)=tof11_i |
537 |
C--------------------Insert Artifical TDC Value --------------------- |
hitvec(2)=tof12_i |
538 |
C For each Paddle perform check: |
hitvec(3)=tof21_i |
539 |
C if left paddle=4095 and right paddle OK => create TDC value left |
hitvec(4)=tof22_i |
540 |
C if right paddle=4095 and left paddle OK => create TDC value right |
hitvec(5)=tof31_i |
541 |
C----------------------------------------------------------------------- |
hitvec(6)=tof32_i |
|
|
|
|
C-----------------------S11 ----------------------------------------- |
|
|
|
|
|
IF (tof11_i.GT.none_find) THEN |
|
|
xpos = yout(1) |
|
|
i = tof11_i |
|
|
if ((tof11(1,tof11_i,itdc).EQ.4095).AND. |
|
|
& (tof11(2,tof11_i,itdc).LT.4095)) THEN |
|
|
|
|
|
c write(*,*)'11lb4 ',i,tof11(1,tof11_i,itdc),tof11(2,tof11_i,itdc) |
|
|
|
|
|
tof11(1,tof11_i,itdc) = tof11(2,tof11_i,itdc) |
|
|
& + 2*(y_coor_lin11(tof11_i,offset) |
|
|
& + xpos*y_coor_lin11(tof11_i,slope)) |
|
|
|
|
|
c write(*,*)'11laf ',i,tof11(1,tof11_i,itdc),tof11(2,tof11_i,itdc) |
|
|
|
|
|
tdcflag(ch11a(i),hb11a(i)) = 1 |
|
|
|
|
|
ENDIF |
|
|
if ((tof11(2,tof11_i,itdc).EQ.4095).AND. |
|
|
& (tof11(1,tof11_i,itdc).LT.4095)) THEN |
|
|
|
|
|
c write(*,*)'11rb4 ',i,tof11(1,tof11_i,itdc),tof11(2,tof11_i,itdc) |
|
|
|
|
|
tof11(2,tof11_i,itdc) = tof11(1,tof11_i,itdc) |
|
|
& - 2*(y_coor_lin11(tof11_i,offset) |
|
|
& + xpos*y_coor_lin11(tof11_i,slope)) |
|
|
c write(*,*)'11raf ',i,tof11(1,tof11_i,itdc),tof11(2,tof11_i,itdc) |
|
|
|
|
|
tdcflag(ch11b(i),hb11b(i)) = 1 |
|
|
ENDIF |
|
|
ENDIF |
|
|
|
|
|
C-----------------------S12 ----------------------------------------- |
|
|
|
|
|
IF (tof12_i.GT.none_find) THEN |
|
|
xpos = xout(2) |
|
|
i = tof12_i |
|
|
if ((tof12(1,tof12_i,itdc).EQ.4095).AND. |
|
|
& (tof12(2,tof12_i,itdc).LT.4095)) THEN |
|
|
tof12(1,tof12_i,itdc) = tof12(2,tof12_i,itdc) |
|
|
& + 2*(x_coor_lin12(tof12_i,offset) |
|
|
& + xpos*x_coor_lin12(tof12_i,slope)) |
|
|
tdcflag(ch12a(i),hb12a(i)) = 1 |
|
|
ENDIF |
|
|
if ((tof12(2,tof12_i,itdc).EQ.4095).AND. |
|
|
& (tof12(1,tof12_i,itdc).LT.4095)) THEN |
|
|
tof12(2,tof12_i,itdc) = tof12(1,tof12_i,itdc) |
|
|
& - 2*(x_coor_lin12(tof12_i,offset) |
|
|
& + xpos*x_coor_lin12(tof12_i,slope)) |
|
|
tdcflag(ch12b(i),hb12b(i)) = 1 |
|
|
ENDIF |
|
|
ENDIF |
|
|
|
|
|
C-----------------------S21 ----------------------------------------- |
|
|
|
|
|
IF (tof21_i.GT.none_find) THEN |
|
|
xpos = xout(3) |
|
|
i = tof21_i |
|
|
if ((tof21(1,tof21_i,itdc).EQ.4095).AND. |
|
|
& (tof21(2,tof21_i,itdc).LT.4095)) THEN |
|
|
tof21(1,tof21_i,itdc) = tof21(2,tof21_i,itdc) |
|
|
& + 2*(x_coor_lin21(tof21_i,offset) |
|
|
& + xpos*x_coor_lin21(tof21_i,slope)) |
|
|
tdcflag(ch21a(i),hb21a(i)) = 1 |
|
|
ENDIF |
|
|
if ((tof21(2,tof21_i,itdc).EQ.4095).AND. |
|
|
& (tof21(1,tof21_i,itdc).LT.4095)) THEN |
|
|
tof21(2,tof21_i,itdc) = tof21(1,tof21_i,itdc) |
|
|
& - 2*(x_coor_lin21(tof21_i,offset) |
|
|
& + xpos*x_coor_lin21(tof21_i,slope)) |
|
|
tdcflag(ch21b(i),hb21b(i)) = 1 |
|
|
ENDIF |
|
|
ENDIF |
|
|
|
|
|
C-----------------------S22 ----------------------------------------- |
|
542 |
|
|
543 |
IF (tof22_i.GT.none_find) THEN |
c write(*,*) 'toftrk ', |
544 |
xpos = yout(4) |
c & tof11_i,tof12_i,tof21_i,tof22_i,tof31_i,tof32_i |
|
i = tof22_i |
|
|
if ((tof22(1,tof22_i,itdc).EQ.4095).AND. |
|
|
& (tof22(2,tof22_i,itdc).LT.4095)) THEN |
|
|
tof22(1,tof22_i,itdc) = tof22(2,tof22_i,itdc) |
|
|
& + 2*(y_coor_lin22(tof22_i,offset) |
|
|
& + xpos*y_coor_lin22(tof22_i,slope)) |
|
|
tdcflag(ch22a(i),hb22a(i)) = 1 |
|
|
ENDIF |
|
|
if ((tof22(2,tof22_i,itdc).EQ.4095).AND. |
|
|
& (tof22(1,tof22_i,itdc).LT.4095)) THEN |
|
|
tof22(2,tof22_i,itdc) = tof22(1,tof22_i,itdc) |
|
|
& - 2*(y_coor_lin22(tof22_i,offset) |
|
|
& + xpos*y_coor_lin22(tof22_i,slope)) |
|
|
tdcflag(ch22b(i),hb22b(i)) = 1 |
|
|
ENDIF |
|
|
ENDIF |
|
545 |
|
|
546 |
C-----------------------S31 ----------------------------------------- |
C---------------------------------------------------------------------- |
547 |
|
C--- check charge: |
548 |
IF (tof31_i.GT.none_find) THEN |
C--- if Z=2 we should use the attenuation curve for helium to |
549 |
xpos = yout(5) |
C--- fill the artificail ADC values and NOT divide by "hepratio" |
550 |
i = tof31_i |
C--- if Z>2 we should do a correction to |
551 |
if ((tof31(1,tof31_i,itdc).EQ.4095).AND. |
C--- the k1 constants in the beta calculation |
552 |
& (tof31(2,tof31_i,itdc).LT.4095)) THEN |
C---------------------------------------------------------------------- |
|
tof31(1,tof31_i,itdc) = tof31(2,tof31_i,itdc) |
|
|
& + 2*(y_coor_lin31(tof31_i,offset) |
|
|
& + xpos*y_coor_lin31(tof31_i,slope)) |
|
|
tdcflag(ch31a(i),hb31a(i)) = 1 |
|
|
ENDIF |
|
|
if ((tof31(2,tof31_i,itdc).EQ.4095).AND. |
|
|
& (tof31(1,tof31_i,itdc).LT.4095)) THEN |
|
|
tof31(2,tof31_i,itdc) = tof31(1,tof31_i,itdc) |
|
|
& - 2*(y_coor_lin31(tof31_i,offset) |
|
|
& + xpos*y_coor_lin31(tof31_i,slope)) |
|
|
tdcflag(ch31b(i),hb31b(i)) = 1 |
|
|
ENDIF |
|
|
ENDIF |
|
553 |
|
|
554 |
C-----------------------S32 ----------------------------------------- |
theta=0. |
555 |
|
dist = ZTOF(1) - ZTOF(5) |
556 |
|
dl = 0. |
557 |
|
DO I=1,5 |
558 |
|
dl = dl + TLOUT(i) |
559 |
|
ENDDO |
560 |
|
F = dl/dist |
561 |
|
theta = acos(1/F) |
562 |
|
|
563 |
IF (tof32_i.GT.none_find) THEN |
iz = int(check_charge(theta,hitvec)) |
564 |
xpos = xout(6) |
c write(*,*) 'in toftrk',iz |
|
i = tof32_i |
|
|
if ((tof32(1,tof32_i,itdc).EQ.4095).AND. |
|
|
& (tof32(2,tof32_i,itdc).LT.4095)) THEN |
|
|
tof32(1,tof32_i,itdc) = tof32(2,tof32_i,itdc) |
|
|
& + 2*(x_coor_lin32(tof32_i,offset) |
|
|
& + xpos*x_coor_lin32(tof32_i,slope)) |
|
|
tdcflag(ch32a(i),hb32a(i)) = 1 |
|
|
ENDIF |
|
|
if ((tof32(2,tof32_i,itdc).EQ.4095).AND. |
|
|
& (tof32(1,tof32_i,itdc).LT.4095)) THEN |
|
|
tof32(2,tof32_i,itdc) = tof32(1,tof32_i,itdc) |
|
|
& - 2*(x_coor_lin32(tof32_i,offset) |
|
|
& + xpos*x_coor_lin32(tof32_i,slope)) |
|
|
tdcflag(ch32b(i),hb32b(i)) = 1 |
|
|
ENDIF |
|
|
ENDIF |
|
565 |
|
|
566 |
C-------------------------------------------------------------------- |
C-------------------------------------------------------------------- |
567 |
C---- if TDCleft.and.TDCright and NO ADC insert artificial ADC |
C---- if paddle hit: if we have TDC value but no ADC, create ADC value |
|
C---- values |
|
568 |
C-------------------------------------------------------------------- |
C-------------------------------------------------------------------- |
569 |
c middle y (or x) position of the upper and middle ToF-Paddle |
c middle y (or x) position of the upper and middle ToF-Paddle |
570 |
c DATA tof11_x/ -17.85,-12.75,-7.65,-2.55,2.55,7.65,12.75,17.85/ |
c DATA tof11_x/ -17.85,-12.75,-7.65,-2.55,2.55,7.65,12.75,17.85/ |
579 |
yhelp=yout(1) |
yhelp=yout(1) |
580 |
IF (tof11_i.GT.none_find.AND.abs(yout(1)).lt.100) THEN |
IF (tof11_i.GT.none_find.AND.abs(yout(1)).lt.100) THEN |
581 |
i = tof11_i |
i = tof11_i |
582 |
if (tof11(left,i,iadc).eq.4095) then |
if ((tdc(ch11a(i),hb11a(i)).lt.4095).AND. |
583 |
|
& (adc(ch11a(i),hb11a(i)).eq.4095)) then |
584 |
phi = atan(tan(THYOUT(1))/tan(THXOUT(1))) |
phi = atan(tan(THYOUT(1))/tan(THXOUT(1))) |
585 |
theta = atan(tan(THXOUT(1))/cos(phi)) |
theta = atan(tan(THXOUT(1))/cos(phi)) |
586 |
xkorr=adcx11(left,i,1)*exp(-yhelp/adcx11(left,i,2)) |
xkorr = atten(left,11,i,yhelp) |
587 |
xkorr=xkorr/hepratio |
if (iz.le.1) xkorr=xkorr/hepratio |
588 |
tof11(left,i,iadc)=xkorr/cos(theta) |
tof11(left,i,iadc)=xkorr/cos(theta) |
589 |
adcflag(ch11a(i),hb11a(i)) = 1 |
adcflag(ch11a(i),hb11a(i)) = 1 |
590 |
endif |
endif |
591 |
if (tof11(right,i,iadc).eq.4095) then |
if ((tdc(ch11b(i),hb11b(i)).lt.4095).AND. |
592 |
|
& (adc(ch11b(i),hb11b(i)).eq.4095)) then |
593 |
phi = atan(tan(THYOUT(1))/tan(THXOUT(1))) |
phi = atan(tan(THYOUT(1))/tan(THXOUT(1))) |
594 |
theta = atan(tan(THXOUT(1))/cos(phi)) |
theta = atan(tan(THXOUT(1))/cos(phi)) |
595 |
xkorr=adcx11(right,i,1)*exp(yhelp/adcx11(right,i,2)) |
xkorr = atten(right,11,i,yhelp) |
596 |
xkorr=xkorr/hepratio |
if (iz.le.1) xkorr=xkorr/hepratio |
597 |
tof11(right,i,iadc)=xkorr/cos(theta) |
tof11(right,i,iadc)=xkorr/cos(theta) |
598 |
adcflag(ch11b(i),hb11b(i)) = 1 |
adcflag(ch11b(i),hb11b(i)) = 1 |
599 |
endif |
endif |
602 |
xhelp=xout(2) |
xhelp=xout(2) |
603 |
IF (tof12_i.GT.none_find.AND.abs(xout(2)).lt.100) THEN |
IF (tof12_i.GT.none_find.AND.abs(xout(2)).lt.100) THEN |
604 |
i = tof12_i |
i = tof12_i |
605 |
if (tof12(left,i,iadc).eq.4095) then |
if ((tdc(ch12a(i),hb12a(i)).lt.4095).AND. |
606 |
|
& (adc(ch12a(i),hb12a(i)).eq.4095)) then |
607 |
phi = atan(tan(THYOUT(2))/tan(THXOUT(2))) |
phi = atan(tan(THYOUT(2))/tan(THXOUT(2))) |
608 |
theta = atan(tan(THXOUT(2))/cos(phi)) |
theta = atan(tan(THXOUT(2))/cos(phi)) |
609 |
xkorr=adcx12(left,i,1)*exp(-xhelp/adcx12(left,i,2)) |
c xkorr=adcx12(left,i,1)*exp(-xhelp/adcx12(left,i,2)) |
610 |
xkorr=xkorr/hepratio |
xkorr = atten(left,12,i,xhelp) |
611 |
|
if (iz.le.1) xkorr=xkorr/hepratio |
612 |
tof12(left,i,iadc) = xkorr/cos(theta) |
tof12(left,i,iadc) = xkorr/cos(theta) |
613 |
adcflag(ch12a(i),hb12a(i)) = 1 |
adcflag(ch12a(i),hb12a(i)) = 1 |
614 |
endif |
endif |
615 |
if (tof12(right,i,iadc).eq.4095) then |
if ((tdc(ch12b(i),hb12b(i)).lt.4095).AND. |
616 |
|
& (adc(ch12b(i),hb12b(i)).eq.4095)) then |
617 |
phi = atan(tan(THYOUT(2))/tan(THXOUT(2))) |
phi = atan(tan(THYOUT(2))/tan(THXOUT(2))) |
618 |
theta = atan(tan(THXOUT(2))/cos(phi)) |
theta = atan(tan(THXOUT(2))/cos(phi)) |
619 |
xkorr=adcx12(right,i,1)*exp(xhelp/adcx12(right,i,2)) |
c xkorr=adcx12(right,i,1)*exp(xhelp/adcx12(right,i,2)) |
620 |
xkorr=xkorr/hepratio |
xkorr = atten(right,12,i,xhelp) |
621 |
|
if (iz.le.1) xkorr=xkorr/hepratio |
622 |
tof12(right,i,iadc) = xkorr/cos(theta) |
tof12(right,i,iadc) = xkorr/cos(theta) |
623 |
adcflag(ch12b(i),hb12b(i)) = 1 |
adcflag(ch12b(i),hb12b(i)) = 1 |
624 |
endif |
endif |
629 |
xhelp=xout(3) |
xhelp=xout(3) |
630 |
IF (tof21_i.GT.none_find.AND.abs(xout(3)).lt.100) THEN |
IF (tof21_i.GT.none_find.AND.abs(xout(3)).lt.100) THEN |
631 |
i = tof21_i |
i = tof21_i |
632 |
if (tof21(left,i,iadc).eq.4095) then |
if ((tdc(ch21a(i),hb21a(i)).lt.4095).AND. |
633 |
|
& (adc(ch21a(i),hb21a(i)).eq.4095)) then |
634 |
phi = atan(tan(THYOUT(3))/tan(THXOUT(3))) |
phi = atan(tan(THYOUT(3))/tan(THXOUT(3))) |
635 |
theta = atan(tan(THXOUT(3))/cos(phi)) |
theta = atan(tan(THXOUT(3))/cos(phi)) |
636 |
xkorr=adcx21(left,i,1)*exp(-xhelp/adcx21(left,i,2)) |
c xkorr=adcx21(left,i,1)*exp(-xhelp/adcx21(left,i,2)) |
637 |
xkorr=xkorr/hepratio |
xkorr = atten(left,21,i,xhelp) |
638 |
|
if (iz.le.1) xkorr=xkorr/hepratio |
639 |
tof21(left,i,iadc) = xkorr/cos(theta) |
tof21(left,i,iadc) = xkorr/cos(theta) |
640 |
adcflag(ch21a(i),hb21a(i)) = 1 |
adcflag(ch21a(i),hb21a(i)) = 1 |
641 |
endif |
endif |
642 |
if (tof21(right,i,iadc).eq.4095) then |
if ((tdc(ch21b(i),hb21b(i)).lt.4095).AND. |
643 |
|
& (adc(ch21b(i),hb21b(i)).eq.4095)) then |
644 |
phi = atan(tan(THYOUT(3))/tan(THXOUT(3))) |
phi = atan(tan(THYOUT(3))/tan(THXOUT(3))) |
645 |
theta = atan(tan(THXOUT(3))/cos(phi)) |
theta = atan(tan(THXOUT(3))/cos(phi)) |
646 |
xkorr=adcx21(right,i,1)*exp(xhelp/adcx21(right,i,2)) |
c xkorr=adcx21(right,i,1)*exp(xhelp/adcx21(right,i,2)) |
647 |
xkorr=xkorr/hepratio |
xkorr = atten(right,21,i,xhelp) |
648 |
|
if (iz.le.1) xkorr=xkorr/hepratio |
649 |
tof21(right,i,iadc) = xkorr/cos(theta) |
tof21(right,i,iadc) = xkorr/cos(theta) |
650 |
adcflag(ch21b(i),hb21b(i)) = 1 |
adcflag(ch21b(i),hb21b(i)) = 1 |
651 |
endif |
endif |
655 |
yhelp=yout(4) |
yhelp=yout(4) |
656 |
IF (tof22_i.GT.none_find.AND.abs(yout(4)).lt.100) THEN |
IF (tof22_i.GT.none_find.AND.abs(yout(4)).lt.100) THEN |
657 |
i = tof22_i |
i = tof22_i |
658 |
if (tof22(left,i,iadc).eq.4095) then |
if ((tdc(ch22a(i),hb22a(i)).lt.4095).AND. |
659 |
|
& (adc(ch22a(i),hb22a(i)).eq.4095)) then |
660 |
phi = atan(tan(THYOUT(4))/tan(THXOUT(4))) |
phi = atan(tan(THYOUT(4))/tan(THXOUT(4))) |
661 |
theta = atan(tan(THXOUT(4))/cos(phi)) |
theta = atan(tan(THXOUT(4))/cos(phi)) |
662 |
xkorr=adcx22(left,i,1)*exp(-yhelp/adcx22(left,i,2)) |
c xkorr=adcx22(left,i,1)*exp(-yhelp/adcx22(left,i,2)) |
663 |
xkorr=xkorr/hepratio |
xkorr = atten(left,22,i,yhelp) |
664 |
|
if (iz.le.1) xkorr=xkorr/hepratio |
665 |
tof22(left,i,iadc) = xkorr/cos(theta) |
tof22(left,i,iadc) = xkorr/cos(theta) |
666 |
adcflag(ch22a(i),hb22a(i)) = 1 |
adcflag(ch22a(i),hb22a(i)) = 1 |
667 |
endif |
endif |
668 |
if (tof22(right,i,iadc).eq.4095) then |
if ((tdc(ch22a(i),hb22b(i)).lt.4095).AND. |
669 |
|
& (adc(ch22b(i),hb22b(i)).eq.4095)) then |
670 |
phi = atan(tan(THYOUT(4))/tan(THXOUT(4))) |
phi = atan(tan(THYOUT(4))/tan(THXOUT(4))) |
671 |
theta = atan(tan(THXOUT(4))/cos(phi)) |
theta = atan(tan(THXOUT(4))/cos(phi)) |
672 |
xkorr=adcx22(right,i,1)*exp(yhelp/adcx22(right,i,2)) |
c xkorr=adcx22(right,i,1)*exp(yhelp/adcx22(right,i,2)) |
673 |
xkorr=xkorr/hepratio |
xkorr = atten(right,22,i,yhelp) |
674 |
|
if (iz.le.1) xkorr=xkorr/hepratio |
675 |
tof22(right,i,iadc) = xkorr/cos(theta) |
tof22(right,i,iadc) = xkorr/cos(theta) |
676 |
adcflag(ch22b(i),hb22b(i)) = 1 |
adcflag(ch22b(i),hb22b(i)) = 1 |
677 |
endif |
endif |
682 |
yhelp=yout(5) |
yhelp=yout(5) |
683 |
IF (tof31_i.GT.none_find.AND.abs(yout(5)).lt.100) THEN |
IF (tof31_i.GT.none_find.AND.abs(yout(5)).lt.100) THEN |
684 |
i = tof31_i |
i = tof31_i |
685 |
if (tof31(left,i,iadc).eq.4095) then |
if ((tdc(ch31a(i),hb31a(i)).lt.4095).AND. |
686 |
|
& (adc(ch31a(i),hb31a(i)).eq.4095)) then |
687 |
phi = atan(tan(THYOUT(5))/tan(THXOUT(5))) |
phi = atan(tan(THYOUT(5))/tan(THXOUT(5))) |
688 |
theta = atan(tan(THXOUT(5))/cos(phi)) |
theta = atan(tan(THXOUT(5))/cos(phi)) |
689 |
xkorr=adcx31(left,i,1)*exp(-yhelp/adcx31(left,i,2)) |
c xkorr=adcx31(left,i,1)*exp(-yhelp/adcx31(left,i,2)) |
690 |
xkorr=xkorr/hepratio |
xkorr = atten(left,31,i,yhelp) |
691 |
|
if (iz.le.1) xkorr=xkorr/hepratio |
692 |
tof31(left,i,iadc) = xkorr/cos(theta) |
tof31(left,i,iadc) = xkorr/cos(theta) |
693 |
adcflag(ch31a(i),hb31a(i)) = 1 |
adcflag(ch31a(i),hb31a(i)) = 1 |
694 |
endif |
endif |
695 |
if (tof31(right,i,iadc).eq.4095) then |
if ((tdc(ch31b(i),hb31b(i)).lt.4095).AND. |
696 |
|
& (adc(ch31b(i),hb31b(i)).eq.4095)) then |
697 |
phi = atan(tan(THYOUT(5))/tan(THXOUT(5))) |
phi = atan(tan(THYOUT(5))/tan(THXOUT(5))) |
698 |
theta = atan(tan(THXOUT(5))/cos(phi)) |
theta = atan(tan(THXOUT(5))/cos(phi)) |
699 |
xkorr=adcx31(right,i,1)*exp(yhelp/adcx31(right,i,2)) |
c xkorr=adcx31(right,i,1)*exp(yhelp/adcx31(right,i,2)) |
700 |
xkorr=xkorr/hepratio |
xkorr = atten(right,31,i,yhelp) |
701 |
|
if (iz.le.1) xkorr=xkorr/hepratio |
702 |
tof31(right,i,iadc) = xkorr/cos(theta) |
tof31(right,i,iadc) = xkorr/cos(theta) |
703 |
adcflag(ch31b(i),hb31b(i)) = 1 |
adcflag(ch31b(i),hb31b(i)) = 1 |
704 |
endif |
endif |
708 |
xhelp=xout(6) |
xhelp=xout(6) |
709 |
IF (tof32_i.GT.none_find.AND.abs(xout(6)).lt.100) THEN |
IF (tof32_i.GT.none_find.AND.abs(xout(6)).lt.100) THEN |
710 |
i = tof32_i |
i = tof32_i |
711 |
if (tof32(left,i,iadc).eq.4095) then |
if ((tdc(ch32a(i),hb32a(i)).lt.4095).AND. |
712 |
|
& (adc(ch32a(i),hb32a(i)).eq.4095)) then |
713 |
phi = atan(tan(THYOUT(6))/tan(THXOUT(6))) |
phi = atan(tan(THYOUT(6))/tan(THXOUT(6))) |
714 |
theta = atan(tan(THXOUT(6))/cos(phi)) |
theta = atan(tan(THXOUT(6))/cos(phi)) |
715 |
xkorr=adcx32(left,i,1)*exp(-xhelp/adcx32(left,i,2)) |
c xkorr=adcx32(left,i,1)*exp(-xhelp/adcx32(left,i,2)) |
716 |
xkorr=xkorr/hepratio |
xkorr = atten(left,32,i,xhelp) |
717 |
|
if (iz.le.1) xkorr=xkorr/hepratio |
718 |
tof32(left,i,iadc) = xkorr/cos(theta) |
tof32(left,i,iadc) = xkorr/cos(theta) |
719 |
adcflag(ch32a(i),hb32a(i)) = 1 |
adcflag(ch32a(i),hb32a(i)) = 1 |
720 |
endif |
endif |
721 |
if (tof32(right,i,iadc).eq.4095) then |
if ((tdc(ch32b(i),hb32b(i)).lt.4095).AND. |
722 |
|
& (adc(ch32b(i),hb32b(i)).eq.4095)) then |
723 |
phi = atan(tan(THYOUT(6))/tan(THXOUT(6))) |
phi = atan(tan(THYOUT(6))/tan(THXOUT(6))) |
724 |
theta = atan(tan(THXOUT(6))/cos(phi)) |
theta = atan(tan(THXOUT(6))/cos(phi)) |
725 |
xkorr=adcx32(right,i,1)*exp(xhelp/adcx32(right,i,2)) |
c xkorr=adcx32(right,i,1)*exp(xhelp/adcx32(right,i,2)) |
726 |
xkorr=xkorr/hepratio |
xkorr = atten(right,32,i,xhelp) |
727 |
|
if (iz.le.1) xkorr=xkorr/hepratio |
728 |
tof32(right,i,iadc) = xkorr/cos(theta) |
tof32(right,i,iadc) = xkorr/cos(theta) |
729 |
adcflag(ch32b(i),hb32b(i)) = 1 |
adcflag(ch32b(i),hb32b(i)) = 1 |
730 |
endif |
endif |
731 |
ENDIF |
ENDIF |
732 |
|
|
733 |
|
C------------------------------------------------------------------- |
734 |
|
C Now there is for each hitted paddle a TDC and ADC value, if the |
735 |
|
C TDC was < 4095. |
736 |
|
C There might be also TDC-ADC pairs in paddles not hitted |
737 |
|
C Let's correct the raw TDC value with the time walk |
738 |
|
C------------------------------------------------------------------- |
739 |
|
C--------------------Time walk correction ------------------------- |
740 |
|
C------------------------------------------------------------------- |
741 |
|
|
742 |
|
DO i=1,8 |
743 |
|
if ((tdc(ch11a(i),hb11a(i)).lt.4095).and. |
744 |
|
& (tof11(left,i,iadc).lt.3786)) THEN |
745 |
|
xhelp = tw11(left,i)/(tof11(left,i,iadc)**0.5) |
746 |
|
tof11(left,i,itdc) = tof11(left,i,itdc) + xhelp |
747 |
|
tdc_c(ch11a(i),hb11a(i))=tof11(left,i,itdc) |
748 |
|
ENDIF |
749 |
|
|
750 |
|
if ((tdc(ch11b(i),hb11b(i)).lt.4095).and. |
751 |
|
& (tof11(right,i,iadc).lt.3786)) THEN |
752 |
|
xhelp = tw11(right,i)/(tof11(right,i,iadc)**0.5) |
753 |
|
tof11(right,i,itdc) = tof11(right,i,itdc) + xhelp |
754 |
|
tdc_c(ch11b(i),hb11b(i))=tof11(right,i,itdc) |
755 |
|
ENDIF |
756 |
|
ENDDO |
757 |
|
|
758 |
|
|
759 |
|
DO i=1,6 |
760 |
|
if ((tdc(ch12a(i),hb12a(i)).lt.4095).and. |
761 |
|
& (tof12(left,i,iadc).lt.3786)) THEN |
762 |
|
xhelp = tw12(left,i)/(tof12(left,i,iadc)**0.5) |
763 |
|
tof12(left,i,itdc) = tof12(left,i,itdc) + xhelp |
764 |
|
tdc_c(ch12a(i),hb12a(i))=tof12(left,i,itdc) |
765 |
|
ENDIF |
766 |
|
|
767 |
|
if ((tdc(ch12b(i),hb12b(i)).lt.4095).and. |
768 |
|
& (tof12(right,i,iadc).lt.3786)) THEN |
769 |
|
xhelp = tw12(right,i)/(tof12(right,i,iadc)**0.5) |
770 |
|
tof12(right,i,itdc) = tof12(right,i,itdc) + xhelp |
771 |
|
tdc_c(ch12b(i),hb12b(i))=tof12(right,i,itdc) |
772 |
|
ENDIF |
773 |
|
ENDDO |
774 |
|
|
775 |
|
C---- |
776 |
|
DO I=1,2 |
777 |
|
if ((tdc(ch21a(i),hb21a(i)).lt.4095).and. |
778 |
|
& (tof21(left,i,iadc).lt.3786)) THEN |
779 |
|
xhelp = tw21(left,i)/(tof21(left,i,iadc)**0.5) |
780 |
|
tof21(left,i,itdc) = tof21(left,i,itdc) + xhelp |
781 |
|
tdc_c(ch21a(i),hb21a(i))=tof21(left,i,itdc) |
782 |
|
ENDIF |
783 |
|
|
784 |
|
if ((tdc(ch21b(i),hb21b(i)).lt.4095).and. |
785 |
|
& (tof21(right,i,iadc).lt.3786)) THEN |
786 |
|
xhelp = tw21(right,i)/(tof21(right,i,iadc)**0.5) |
787 |
|
tof21(right,i,itdc) = tof21(right,i,itdc) + xhelp |
788 |
|
tdc_c(ch21b(i),hb21b(i))=tof21(right,i,itdc) |
789 |
|
ENDIF |
790 |
|
ENDDO |
791 |
|
|
792 |
|
DO I=1,2 |
793 |
|
if ((tdc(ch22a(i),hb22a(i)).lt.4095).and. |
794 |
|
& (tof22(left,i,iadc).lt.3786)) THEN |
795 |
|
xhelp = tw22(left,i)/(tof22(left,i,iadc)**0.5) |
796 |
|
tof22(left,i,itdc) = tof22(left,i,itdc) + xhelp |
797 |
|
tdc_c(ch22a(i),hb22a(i))=tof22(left,i,itdc) |
798 |
|
ENDIF |
799 |
|
|
800 |
|
if ((tdc(ch22b(i),hb22b(i)).lt.4095).and. |
801 |
|
& (tof22(right,i,iadc).lt.3786)) THEN |
802 |
|
xhelp = tw22(right,i)/(tof22(right,i,iadc)**0.5) |
803 |
|
tof22(right,i,itdc) = tof22(right,i,itdc) + xhelp |
804 |
|
tdc_c(ch22b(i),hb22b(i))=tof22(right,i,itdc) |
805 |
|
ENDIF |
806 |
|
ENDDO |
807 |
|
|
808 |
|
C---- |
809 |
|
DO I=1,3 |
810 |
|
if ((tdc(ch31a(i),hb31a(i)).lt.4095).and. |
811 |
|
& (tof31(left,i,iadc).lt.3786)) THEN |
812 |
|
xhelp = tw31(left,i)/(tof31(left,i,iadc)**0.5) |
813 |
|
tof31(left,i,itdc) = tof31(left,i,itdc) + xhelp |
814 |
|
tdc_c(ch31a(i),hb31a(i))=tof31(left,i,itdc) |
815 |
|
ENDIF |
816 |
|
|
817 |
|
if ((tdc(ch31b(i),hb31b(i)).lt.4095).and. |
818 |
|
& (tof31(right,i,iadc).lt.3786)) THEN |
819 |
|
xhelp = tw31(right,i)/(tof31(right,i,iadc)**0.5) |
820 |
|
tof31(right,i,itdc) = tof31(right,i,itdc) + xhelp |
821 |
|
tdc_c(ch31b(i),hb31b(i))=tof31(right,i,itdc) |
822 |
|
ENDIF |
823 |
|
ENDDO |
824 |
|
|
825 |
|
DO I=1,3 |
826 |
|
if ((tdc(ch32a(i),hb32a(i)).lt.4095).and. |
827 |
|
& (tof32(left,i,iadc).lt.3786)) THEN |
828 |
|
xhelp = tw32(left,i)/(tof32(left,i,iadc)**0.5) |
829 |
|
tof32(left,i,itdc) = tof32(left,i,itdc) + xhelp |
830 |
|
tdc_c(ch32a(i),hb32a(i))=tof32(left,i,itdc) |
831 |
|
ENDIF |
832 |
|
|
833 |
|
if ((tdc(ch32b(i),hb32b(i)).lt.4095).and. |
834 |
|
& (tof32(right,i,iadc).lt.3786)) THEN |
835 |
|
xhelp = tw32(right,i)/(tof32(right,i,iadc)**0.5) |
836 |
|
tof32(right,i,itdc) = tof32(right,i,itdc) + xhelp |
837 |
|
tdc_c(ch32b(i),hb32b(i))=tof32(right,i,itdc) |
838 |
|
ENDIF |
839 |
|
ENDDO |
840 |
|
|
841 |
|
|
842 |
|
C----------------------------------------------------------------------- |
843 |
|
C--------------------Insert Artifical TDC Value --------------------- |
844 |
|
C For each Paddle perform check: |
845 |
|
C if left paddle=4095 and right paddle OK => create TDC value left |
846 |
|
C if right paddle=4095 and left paddle OK => create TDC value right |
847 |
|
C----------------------------------------------------------------------- |
848 |
|
|
849 |
|
C-----------------------S11 ----------------------------------------- |
850 |
|
|
851 |
|
IF (tof11_i.GT.none_find) THEN |
852 |
|
xpos = yout(1) |
853 |
|
i = tof11_i |
854 |
|
if ((tdc(ch11a(i),hb11a(i)).EQ.4095).AND. |
855 |
|
& (tdc(ch11b(i),hb11b(i)).LT.4095)) THEN |
856 |
|
tof11(1,tof11_i,itdc) = tof11(2,tof11_i,itdc) |
857 |
|
& + 2*(y_coor_lin11(tof11_i,offset) |
858 |
|
& + xpos*y_coor_lin11(tof11_i,slope)) |
859 |
|
tdcflag(ch11a(i),hb11a(i)) = 1 |
860 |
|
ENDIF |
861 |
|
|
862 |
|
if ((tdc(ch11b(i),hb11b(i)).EQ.4095).AND. |
863 |
|
& (tdc(ch11a(i),hb11a(i)).LT.4095)) THEN |
864 |
|
tof11(2,tof11_i,itdc) = tof11(1,tof11_i,itdc) |
865 |
|
& - 2*(y_coor_lin11(tof11_i,offset) |
866 |
|
& + xpos*y_coor_lin11(tof11_i,slope)) |
867 |
|
tdcflag(ch11b(i),hb11b(i)) = 1 |
868 |
|
ENDIF |
869 |
|
|
870 |
|
ENDIF |
871 |
|
|
872 |
|
C-----------------------S12 ----------------------------------------- |
873 |
|
|
874 |
|
IF (tof12_i.GT.none_find) THEN |
875 |
|
xpos = xout(2) |
876 |
|
i = tof12_i |
877 |
|
if ((tdc(ch12a(i),hb12a(i)).EQ.4095).AND. |
878 |
|
& (tdc(ch12b(i),hb12b(i)).LT.4095)) THEN |
879 |
|
tof12(1,tof12_i,itdc) = tof12(2,tof12_i,itdc) |
880 |
|
& + 2*(x_coor_lin12(tof12_i,offset) |
881 |
|
& + xpos*x_coor_lin12(tof12_i,slope)) |
882 |
|
tdcflag(ch12a(i),hb12a(i)) = 1 |
883 |
|
ENDIF |
884 |
|
|
885 |
|
if ((tdc(ch12b(i),hb12b(i)).EQ.4095).AND. |
886 |
|
& (tdc(ch12a(i),hb12a(i)).LT.4095)) THEN |
887 |
|
tof12(2,tof12_i,itdc) = tof12(1,tof12_i,itdc) |
888 |
|
& - 2*(x_coor_lin12(tof12_i,offset) |
889 |
|
& + xpos*x_coor_lin12(tof12_i,slope)) |
890 |
|
tdcflag(ch12b(i),hb12b(i)) = 1 |
891 |
|
ENDIF |
892 |
|
ENDIF |
893 |
|
|
894 |
|
C-----------------------S21 ----------------------------------------- |
895 |
|
|
896 |
|
IF (tof21_i.GT.none_find) THEN |
897 |
|
xpos = xout(3) |
898 |
|
i = tof21_i |
899 |
|
if ((tdc(ch21a(i),hb21a(i)).EQ.4095).AND. |
900 |
|
& (tdc(ch21b(i),hb21b(i)).LT.4095)) THEN |
901 |
|
tof21(1,tof21_i,itdc) = tof21(2,tof21_i,itdc) |
902 |
|
& + 2*(x_coor_lin21(tof21_i,offset) |
903 |
|
& + xpos*x_coor_lin21(tof21_i,slope)) |
904 |
|
tdcflag(ch21a(i),hb21a(i)) = 1 |
905 |
|
ENDIF |
906 |
|
|
907 |
|
if ((tdc(ch21b(i),hb21b(i)).EQ.4095).AND. |
908 |
|
& (tdc(ch21a(i),hb21a(i)).LT.4095)) THEN |
909 |
|
tof21(2,tof21_i,itdc) = tof21(1,tof21_i,itdc) |
910 |
|
& - 2*(x_coor_lin21(tof21_i,offset) |
911 |
|
& + xpos*x_coor_lin21(tof21_i,slope)) |
912 |
|
tdcflag(ch21b(i),hb21b(i)) = 1 |
913 |
|
ENDIF |
914 |
|
ENDIF |
915 |
|
|
916 |
|
C-----------------------S22 ----------------------------------------- |
917 |
|
|
918 |
|
IF (tof22_i.GT.none_find) THEN |
919 |
|
xpos = yout(4) |
920 |
|
i = tof22_i |
921 |
|
if ((tdc(ch22a(i),hb22a(i)).EQ.4095).AND. |
922 |
|
& (tdc(ch22b(i),hb22b(i)).LT.4095)) THEN |
923 |
|
tof22(1,tof22_i,itdc) = tof22(2,tof22_i,itdc) |
924 |
|
& + 2*(y_coor_lin22(tof22_i,offset) |
925 |
|
& + xpos*y_coor_lin22(tof22_i,slope)) |
926 |
|
tdcflag(ch22a(i),hb22a(i)) = 1 |
927 |
|
ENDIF |
928 |
|
|
929 |
|
if ((tdc(ch22b(i),hb22b(i)).EQ.4095).AND. |
930 |
|
& (tdc(ch22a(i),hb22a(i)).LT.4095)) THEN |
931 |
|
tof22(2,tof22_i,itdc) = tof22(1,tof22_i,itdc) |
932 |
|
& - 2*(y_coor_lin22(tof22_i,offset) |
933 |
|
& + xpos*y_coor_lin22(tof22_i,slope)) |
934 |
|
tdcflag(ch22b(i),hb22b(i)) = 1 |
935 |
|
ENDIF |
936 |
|
ENDIF |
937 |
|
|
938 |
|
C-----------------------S31 ----------------------------------------- |
939 |
|
|
940 |
|
IF (tof31_i.GT.none_find) THEN |
941 |
|
xpos = yout(5) |
942 |
|
i = tof31_i |
943 |
|
if ((tdc(ch31a(i),hb31a(i)).EQ.4095).AND. |
944 |
|
& (tdc(ch31b(i),hb31b(i)).LT.4095)) THEN |
945 |
|
tof31(1,tof31_i,itdc) = tof31(2,tof31_i,itdc) |
946 |
|
& + 2*(y_coor_lin31(tof31_i,offset) |
947 |
|
& + xpos*y_coor_lin31(tof31_i,slope)) |
948 |
|
tdcflag(ch31a(i),hb31a(i)) = 1 |
949 |
|
ENDIF |
950 |
|
|
951 |
|
if ((tdc(ch31b(i),hb31b(i)).EQ.4095).AND. |
952 |
|
& (tdc(ch31a(i),hb31a(i)).LT.4095)) THEN |
953 |
|
tof31(2,tof31_i,itdc) = tof31(1,tof31_i,itdc) |
954 |
|
& - 2*(y_coor_lin31(tof31_i,offset) |
955 |
|
& + xpos*y_coor_lin31(tof31_i,slope)) |
956 |
|
tdcflag(ch31b(i),hb31b(i)) = 1 |
957 |
|
ENDIF |
958 |
|
ENDIF |
959 |
|
|
960 |
|
C-----------------------S32 ----------------------------------------- |
961 |
|
|
962 |
|
IF (tof32_i.GT.none_find) THEN |
963 |
|
xpos = xout(6) |
964 |
|
i = tof32_i |
965 |
|
if ((tdc(ch32a(i),hb32a(i)).EQ.4095).AND. |
966 |
|
& (tdc(ch32b(i),hb32b(i)).LT.4095)) THEN |
967 |
|
tof32(1,tof32_i,itdc) = tof32(2,tof32_i,itdc) |
968 |
|
& + 2*(x_coor_lin32(tof32_i,offset) |
969 |
|
& + xpos*x_coor_lin32(tof32_i,slope)) |
970 |
|
tdcflag(ch32a(i),hb32a(i)) = 1 |
971 |
|
ENDIF |
972 |
|
|
973 |
|
if ((tdc(ch32b(i),hb32b(i)).EQ.4095).AND. |
974 |
|
& (tdc(ch32a(i),hb32a(i)).LT.4095)) THEN |
975 |
|
tof32(2,tof32_i,itdc) = tof32(1,tof32_i,itdc) |
976 |
|
& - 2*(x_coor_lin32(tof32_i,offset) |
977 |
|
& + xpos*x_coor_lin32(tof32_i,slope)) |
978 |
|
tdcflag(ch32b(i),hb32b(i)) = 1 |
979 |
|
ENDIF |
980 |
|
ENDIF |
981 |
|
|
982 |
|
|
983 |
C------------------------------------------------------------------ |
C------------------------------------------------------------------ |
984 |
C--- calculate track position in paddle using timing difference |
C--- calculate track position in paddle using timing difference |
987 |
do i=1,3 |
do i=1,3 |
988 |
xtofpos(i)=100. |
xtofpos(i)=100. |
989 |
ytofpos(i)=100. |
ytofpos(i)=100. |
990 |
enddo |
enddo |
991 |
|
|
992 |
C-----------------------------S1 -------------------------------- |
C-----------------------------S1 -------------------------------- |
993 |
|
|
994 |
IF (tof11_i.GT.none_find) THEN |
IF (tof11_i.GT.none_find) THEN |
995 |
IF ((tof11(1,tof11_i,itdc).NE.4095).AND. |
IF ((tof11(1,tof11_i,itdc).NE.4095).AND. |
996 |
& (tof11(2,tof11_i,itdc).NE.4095)) THEN |
& (tof11(2,tof11_i,itdc).NE.4095)) THEN |
1007 |
+ -x_coor_lin12(tof12_i,offset))/x_coor_lin12(tof12_i,slope) |
+ -x_coor_lin12(tof12_i,offset))/x_coor_lin12(tof12_i,slope) |
1008 |
if (abs(xtofpos(1)).gt.31.) xtofpos(1)=101. |
if (abs(xtofpos(1)).gt.31.) xtofpos(1)=101. |
1009 |
endif |
endif |
1010 |
endif |
endif |
1011 |
|
|
1012 |
C-----------------------------S2 -------------------------------- |
C-----------------------------S2 -------------------------------- |
1013 |
|
|
1014 |
IF (tof21_i.GT.none_find) THEN |
IF (tof21_i.GT.none_find) THEN |
1015 |
IF ((tof21(1,tof21_i,itdc).NE.4095).AND. |
IF ((tof21(1,tof21_i,itdc).NE.4095).AND. |
1016 |
& (tof21(2,tof21_i,itdc).NE.4095)) THEN |
& (tof21(2,tof21_i,itdc).NE.4095)) THEN |
1017 |
xtofpos(2) = ((tof21(1,tof21_i,itdc)-tof21(2,tof21_i,itdc))/2. |
xtofpos(2) = ((tof21(1,tof21_i,itdc)-tof21(2,tof21_i,itdc))/2. |
1018 |
+ -x_coor_lin21(tof21_i,offset))/x_coor_lin21(tof21_i,slope) |
+ -x_coor_lin21(tof21_i,offset))/x_coor_lin21(tof21_i,slope) |
1019 |
if (abs(xtofpos(2)).gt.19.) xtofpos(2)=101. |
if (abs(xtofpos(2)).gt.19.) xtofpos(2)=101. |
1020 |
endif |
endif |
1021 |
endif |
endif |
1022 |
|
|
1027 |
+ -y_coor_lin22(tof22_i,offset))/y_coor_lin22(tof22_i,slope) |
+ -y_coor_lin22(tof22_i,offset))/y_coor_lin22(tof22_i,slope) |
1028 |
if (abs(ytofpos(2)).gt.18.) ytofpos(2)=101. |
if (abs(ytofpos(2)).gt.18.) ytofpos(2)=101. |
1029 |
endif |
endif |
1030 |
endif |
endif |
1031 |
|
|
1032 |
C-----------------------------S3 -------------------------------- |
C-----------------------------S3 -------------------------------- |
1033 |
|
|
1034 |
IF (tof31_i.GT.none_find) THEN |
IF (tof31_i.GT.none_find) THEN |
1035 |
IF ((tof31(1,tof31_i,itdc).NE.4095).AND. |
IF ((tof31(1,tof31_i,itdc).NE.4095).AND. |
1036 |
& (tof31(2,tof31_i,itdc).NE.4095)) THEN |
& (tof31(2,tof31_i,itdc).NE.4095)) THEN |
1047 |
+ -x_coor_lin32(tof32_i,offset))/x_coor_lin32(tof32_i,slope) |
+ -x_coor_lin32(tof32_i,offset))/x_coor_lin32(tof32_i,slope) |
1048 |
if (abs(xtofpos(3)).gt.19.) xtofpos(3)=101. |
if (abs(xtofpos(3)).gt.19.) xtofpos(3)=101. |
1049 |
endif |
endif |
1050 |
endif |
endif |
1051 |
|
|
1052 |
c do i=1,3 |
c do i=1,3 |
1053 |
c if (abs(xtofpos(i)).gt.100.) then |
c if (abs(xtofpos(i)).gt.100.) then |
1054 |
c xtofpos(i)=101. |
c xtofpos(i)=101. |
1056 |
c if (abs(ytofpos(i)).gt.100.) then |
c if (abs(ytofpos(i)).gt.100.) then |
1057 |
c ytofpos(i)=101. |
c ytofpos(i)=101. |
1058 |
c endif |
c endif |
1059 |
c enddo |
c enddo |
|
|
|
|
|
|
|
|
|
|
|
|
|
C-------------------------------------------------------------------- |
|
|
C--------------------Time walk correction ------------------------- |
|
|
C-------------------------------------------------------------------- |
|
|
|
|
|
DO i=1,8 |
|
|
xhelp_a = tof11(left,i,iadc) |
|
|
xhelp_t = tof11(left,i,itdc) |
|
|
if(xhelp_a<4095) xhelp = tw11(left,i)/sqrt(xhelp_a) |
|
|
tof11(left,i,itdc) = xhelp_t + xhelp |
|
|
tdc_c(ch11a(i),hb11a(i))=tof11(left,i,itdc) |
|
|
xhelp_a = tof11(right,i,iadc) |
|
|
xhelp_t = tof11(right,i,itdc) |
|
|
if(xhelp_a<4095) xhelp = tw11(right,i)/sqrt(xhelp_a) |
|
|
tof11(right,i,itdc) = xhelp_t + xhelp |
|
|
tdc_c(ch11b(i),hb11b(i))=tof11(right,i,itdc) |
|
|
ENDDO |
|
|
|
|
|
DO i=1,6 |
|
|
xhelp_a = tof12(left,i,iadc) |
|
|
xhelp_t = tof12(left,i,itdc) |
|
|
if(xhelp_a<4095) xhelp = tw12(left,i)/sqrt(xhelp_a) |
|
|
tof12(left,i,itdc) = xhelp_t + xhelp |
|
|
tdc_c(ch12a(i),hb12a(i))=tof12(left,i,itdc) |
|
|
xhelp_a = tof12(right,i,iadc) |
|
|
xhelp_t = tof12(right,i,itdc) |
|
|
if(xhelp_a<4095) xhelp = tw12(right,i)/sqrt(xhelp_a) |
|
|
tof12(right,i,itdc) = xhelp_t + xhelp |
|
|
tdc_c(ch12b(i),hb12b(i))=tof12(right,i,itdc) |
|
|
ENDDO |
|
|
C---- |
|
|
DO i=1,2 |
|
|
xhelp_a = tof21(left,i,iadc) |
|
|
xhelp_t = tof21(left,i,itdc) |
|
|
if(xhelp_a<4095) xhelp = tw21(left,i)/sqrt(xhelp_a) |
|
|
tof21(left,i,itdc) = xhelp_t + xhelp |
|
|
tdc_c(ch21a(i),hb21a(i))=tof21(left,i,itdc) |
|
|
xhelp_a = tof21(right,i,iadc) |
|
|
xhelp_t = tof21(right,i,itdc) |
|
|
if(xhelp_a<4095) xhelp = tw21(right,i)/sqrt(xhelp_a) |
|
|
tof21(right,i,itdc) = xhelp_t + xhelp |
|
|
tdc_c(ch21b(i),hb21b(i))=tof21(right,i,itdc) |
|
|
ENDDO |
|
|
|
|
|
DO i=1,2 |
|
|
xhelp_a = tof22(left,i,iadc) |
|
|
xhelp_t = tof22(left,i,itdc) |
|
|
if(xhelp_a<4095) xhelp = tw22(left,i)/sqrt(xhelp_a) |
|
|
tof22(left,i,itdc) = xhelp_t + xhelp |
|
|
tdc_c(ch22a(i),hb22a(i))=tof22(left,i,itdc) |
|
|
xhelp_a = tof22(right,i,iadc) |
|
|
xhelp_t = tof22(right,i,itdc) |
|
|
if(xhelp_a<4095) xhelp = tw22(right,i)/sqrt(xhelp_a) |
|
|
tof22(right,i,itdc) = xhelp_t + xhelp |
|
|
tdc_c(ch22b(i),hb22b(i))=tof22(right,i,itdc) |
|
|
ENDDO |
|
|
C---- |
|
|
|
|
|
DO i=1,3 |
|
|
xhelp_a = tof31(left,i,iadc) |
|
|
xhelp_t = tof31(left,i,itdc) |
|
|
if(xhelp_a<4095) xhelp = tw31(left,i)/sqrt(xhelp_a) |
|
|
tof31(left,i,itdc) = xhelp_t + xhelp |
|
|
tdc_c(ch31a(i),hb31a(i))=tof31(left,i,itdc) |
|
|
xhelp_a = tof31(right,i,iadc) |
|
|
xhelp_t = tof31(right,i,itdc) |
|
|
if(xhelp_a<4095) xhelp = tw31(right,i)/sqrt(xhelp_a) |
|
|
tof31(right,i,itdc) = xhelp_t + xhelp |
|
|
tdc_c(ch31b(i),hb31b(i))=tof31(right,i,itdc) |
|
|
ENDDO |
|
1060 |
|
|
|
DO i=1,3 |
|
|
xhelp_a = tof32(left,i,iadc) |
|
|
xhelp_t = tof32(left,i,itdc) |
|
|
if(xhelp_a<4095) xhelp = tw32(left,i)/sqrt(xhelp_a) |
|
|
tof32(left,i,itdc) = xhelp_t + xhelp |
|
|
tdc_c(ch32a(i),hb32a(i))=tof32(left,i,itdc) |
|
|
xhelp_a = tof32(right,i,iadc) |
|
|
xhelp_t = tof32(right,i,itdc) |
|
|
if(xhelp_a<4095) xhelp = tw32(right,i)/sqrt(xhelp_a) |
|
|
tof32(right,i,itdc) = xhelp_t + xhelp |
|
|
tdc_c(ch32b(i),hb32b(i))=tof32(right,i,itdc) |
|
|
ENDDO |
|
1061 |
|
|
1062 |
|
|
1063 |
C--------------------------------------------------------------------- |
C--------------------------------------------------------------------- |
1074 |
IF (tof11_i.GT.none_find.AND.yhelp.lt.100) THEN |
IF (tof11_i.GT.none_find.AND.yhelp.lt.100) THEN |
1075 |
|
|
1076 |
i = tof11_i |
i = tof11_i |
1077 |
|
|
1078 |
if (tof11(left,i,iadc).lt.4095) then |
if (tof11(left,i,iadc).lt.3786) then |
1079 |
tof11(left,i,iadc) = tof11(left,i,iadc)*cos(theta) |
tof11(left,i,iadc) = tof11(left,i,iadc)*cos(theta) |
1080 |
xkorr=adcx11(left,i,1)*exp(-yhelp/adcx11(left,i,2)) |
xkorr = atten(left,11,i,yhelp) |
1081 |
xkorr=xkorr/hepratio |
if (iz.le.1) xkorr=xkorr/hepratio |
1082 |
adc_c(ch11a(i),hb11a(i))=tof11(left,i,iadc)/xkorr |
adc_c(ch11a(i),hb11a(i))=tof11(left,i,iadc)/xkorr |
1083 |
endif |
endif |
1084 |
|
|
1085 |
|
|
1086 |
if (tof11(right,i,iadc).lt.4095) then |
if (tof11(right,i,iadc).lt.3786) then |
1087 |
tof11(right,i,iadc) = tof11(right,i,iadc)*cos(theta) |
tof11(right,i,iadc) = tof11(right,i,iadc)*cos(theta) |
1088 |
xkorr=adcx11(right,i,1)*exp(yhelp/adcx11(right,i,2)) |
xkorr = atten(right,11,i,yhelp) |
1089 |
xkorr=xkorr/hepratio |
if (iz.le.1) xkorr=xkorr/hepratio |
1090 |
adc_c(ch11b(i),hb11b(i))=tof11(right,i,iadc)/xkorr |
adc_c(ch11b(i),hb11b(i))=tof11(right,i,iadc)/xkorr |
1091 |
endif |
endif |
1092 |
ENDIF |
ENDIF |
1095 |
xhelp=xout(2) |
xhelp=xout(2) |
1096 |
phi = atan(tan(THYOUT(2))/tan(THXOUT(2))) |
phi = atan(tan(THYOUT(2))/tan(THXOUT(2))) |
1097 |
theta = atan(tan(THXOUT(2))/cos(phi)) |
theta = atan(tan(THXOUT(2))/cos(phi)) |
|
c write(*,*) 'theta12 ',theta |
|
|
IF (tof12_i.GT.none_find.AND.xhelp.lt.100) THEN |
|
1098 |
|
|
1099 |
|
IF (tof12_i.GT.none_find.AND.xhelp.lt.100) THEN |
1100 |
i = tof12_i |
i = tof12_i |
1101 |
if (tof12(left,i,iadc).lt.4095) then |
if (tof12(left,i,iadc).lt.3786) then |
1102 |
tof12(left,i,iadc) = tof12(left,i,iadc)*cos(theta) |
tof12(left,i,iadc) = tof12(left,i,iadc)*cos(theta) |
1103 |
xkorr=adcx12(left,i,1)*exp(-xhelp/adcx12(left,i,2)) |
xkorr = atten(left,12,i,xhelp) |
1104 |
xkorr=xkorr/hepratio |
if (iz.le.1) xkorr=xkorr/hepratio |
1105 |
adc_c(ch12a(i),hb12a(i))=tof12(left,i,iadc)/xkorr |
adc_c(ch12a(i),hb12a(i))=tof12(left,i,iadc)/xkorr |
1106 |
endif |
endif |
1107 |
|
|
1108 |
if (tof12(right,i,iadc).lt.4095) then |
if (tof12(right,i,iadc).lt.3786) then |
1109 |
tof12(right,i,iadc) = tof12(right,i,iadc)*cos(theta) |
tof12(right,i,iadc) = tof12(right,i,iadc)*cos(theta) |
1110 |
xkorr=adcx12(right,i,1)*exp(xhelp/adcx12(right,i,2)) |
xkorr = atten(right,12,i,xhelp) |
1111 |
xkorr=xkorr/hepratio |
if (iz.le.1) xkorr=xkorr/hepratio |
1112 |
adc_c(ch12b(i),hb12b(i))=tof12(right,i,iadc)/xkorr |
adc_c(ch12b(i),hb12b(i))=tof12(right,i,iadc)/xkorr |
1113 |
endif |
endif |
1114 |
ENDIF |
ENDIF |
1118 |
xhelp=xout(3) |
xhelp=xout(3) |
1119 |
phi = atan(tan(THYOUT(3))/tan(THXOUT(3))) |
phi = atan(tan(THYOUT(3))/tan(THXOUT(3))) |
1120 |
theta = atan(tan(THXOUT(3))/cos(phi)) |
theta = atan(tan(THXOUT(3))/cos(phi)) |
|
c write(*,*) 'theta21 ',theta |
|
|
IF (tof21_i.GT.none_find.AND.xhelp.lt.100) THEN |
|
1121 |
|
|
1122 |
|
IF (tof21_i.GT.none_find.AND.xhelp.lt.100) THEN |
1123 |
i = tof21_i |
i = tof21_i |
1124 |
if (tof21(left,i,iadc).lt.4095) then |
if (tof21(left,i,iadc).lt.3786) then |
1125 |
tof21(left,i,iadc) = tof21(left,i,iadc)*cos(theta) |
tof21(left,i,iadc) = tof21(left,i,iadc)*cos(theta) |
1126 |
xkorr=adcx21(left,i,1)*exp(-xhelp/adcx21(left,i,2)) |
xkorr = atten(left,21,i,xhelp) |
1127 |
xkorr=xkorr/hepratio |
if (iz.le.1) xkorr=xkorr/hepratio |
1128 |
adc_c(ch21a(i),hb21a(i))=tof21(left,i,iadc)/xkorr |
adc_c(ch21a(i),hb21a(i))=tof21(left,i,iadc)/xkorr |
1129 |
endif |
endif |
1130 |
|
|
1131 |
if (tof21(right,i,iadc).lt.4095) then |
if (tof21(right,i,iadc).lt.3786) then |
1132 |
tof21(right,i,iadc) = tof21(right,i,iadc)*cos(theta) |
tof21(right,i,iadc) = tof21(right,i,iadc)*cos(theta) |
1133 |
xkorr=adcx21(right,i,1)*exp(xhelp/adcx21(right,i,2)) |
xkorr = atten(right,21,i,xhelp) |
1134 |
xkorr=xkorr/hepratio |
if (iz.le.1) xkorr=xkorr/hepratio |
1135 |
adc_c(ch21b(i),hb21b(i))=tof21(right,i,iadc)/xkorr |
adc_c(ch21b(i),hb21b(i))=tof21(right,i,iadc)/xkorr |
1136 |
endif |
endif |
1137 |
ENDIF |
ENDIF |
1139 |
yhelp=yout(4) |
yhelp=yout(4) |
1140 |
phi = atan(tan(THYOUT(4))/tan(THXOUT(4))) |
phi = atan(tan(THYOUT(4))/tan(THXOUT(4))) |
1141 |
theta = atan(tan(THXOUT(4))/cos(phi)) |
theta = atan(tan(THXOUT(4))/cos(phi)) |
|
c write(*,*) 'theta22 ',theta |
|
1142 |
|
|
1143 |
IF (tof22_i.GT.none_find.AND.yhelp.lt.100) THEN |
IF (tof22_i.GT.none_find.AND.yhelp.lt.100) THEN |
|
|
|
1144 |
i = tof22_i |
i = tof22_i |
1145 |
if (tof22(left,i,iadc).lt.4095) then |
if (tof22(left,i,iadc).lt.3786) then |
1146 |
tof22(left,i,iadc) = tof22(left,i,iadc)*cos(theta) |
tof22(left,i,iadc) = tof22(left,i,iadc)*cos(theta) |
1147 |
xkorr=adcx22(left,i,1)*exp(-yhelp/adcx22(left,i,2)) |
xkorr = atten(left,22,i,yhelp) |
1148 |
xkorr=xkorr/hepratio |
if (iz.le.1) xkorr=xkorr/hepratio |
1149 |
adc_c(ch22a(i),hb22a(i))=tof22(left,i,iadc)/xkorr |
adc_c(ch22a(i),hb22a(i))=tof22(left,i,iadc)/xkorr |
1150 |
endif |
endif |
1151 |
|
|
1152 |
if (tof22(right,i,iadc).lt.4095) then |
if (tof22(right,i,iadc).lt.3786) then |
1153 |
tof22(right,i,iadc) = tof22(right,i,iadc)*cos(theta) |
tof22(right,i,iadc) = tof22(right,i,iadc)*cos(theta) |
1154 |
xkorr=adcx22(right,i,1)*exp(yhelp/adcx22(right,i,2)) |
xkorr = atten(right,22,i,yhelp) |
1155 |
xkorr=xkorr/hepratio |
if (iz.le.1) xkorr=xkorr/hepratio |
1156 |
adc_c(ch22b(i),hb22b(i))=tof22(right,i,iadc)/xkorr |
adc_c(ch22b(i),hb22b(i))=tof22(right,i,iadc)/xkorr |
1157 |
endif |
endif |
1158 |
ENDIF |
ENDIF |
1162 |
yhelp=yout(5) |
yhelp=yout(5) |
1163 |
phi = atan(tan(THYOUT(5))/tan(THXOUT(5))) |
phi = atan(tan(THYOUT(5))/tan(THXOUT(5))) |
1164 |
theta = atan(tan(THXOUT(5))/cos(phi)) |
theta = atan(tan(THXOUT(5))/cos(phi)) |
1165 |
c write(*,*) 'theta31 ',theta |
|
|
|
|
1166 |
IF (tof31_i.GT.none_find.AND.yhelp.lt.100) THEN |
IF (tof31_i.GT.none_find.AND.yhelp.lt.100) THEN |
1167 |
|
|
1168 |
i = tof31_i |
i = tof31_i |
1169 |
if (tof31(left,i,iadc).lt.4095) then |
if (tof31(left,i,iadc).lt.3786) then |
1170 |
tof31(left,i,iadc) = tof31(left,i,iadc)*cos(theta) |
tof31(left,i,iadc) = tof31(left,i,iadc)*cos(theta) |
1171 |
xkorr=adcx31(left,i,1)*exp(-yhelp/adcx31(left,i,2)) |
xkorr = atten(left,31,i,yhelp) |
1172 |
xkorr=xkorr/hepratio |
if (iz.le.1) xkorr=xkorr/hepratio |
1173 |
adc_c(ch31a(i),hb31a(i))=tof31(left,i,iadc)/xkorr |
adc_c(ch31a(i),hb31a(i))=tof31(left,i,iadc)/xkorr |
1174 |
endif |
endif |
1175 |
|
|
1176 |
if (tof31(right,i,iadc).lt.4095) then |
if (tof31(right,i,iadc).lt.3786) then |
1177 |
tof31(right,i,iadc) = tof31(right,i,iadc)*cos(theta) |
tof31(right,i,iadc) = tof31(right,i,iadc)*cos(theta) |
1178 |
xkorr=adcx31(right,i,1)*exp(yhelp/adcx31(right,i,2)) |
xkorr = atten(right,31,i,yhelp) |
1179 |
xkorr=xkorr/hepratio |
if (iz.le.1) xkorr=xkorr/hepratio |
1180 |
adc_c(ch31b(i),hb31b(i))=tof31(right,i,iadc)/xkorr |
adc_c(ch31b(i),hb31b(i))=tof31(right,i,iadc)/xkorr |
1181 |
endif |
endif |
1182 |
ENDIF |
ENDIF |
1184 |
xhelp=xout(6) |
xhelp=xout(6) |
1185 |
phi = atan(tan(THYOUT(6))/tan(THXOUT(6))) |
phi = atan(tan(THYOUT(6))/tan(THXOUT(6))) |
1186 |
theta = atan(tan(THXOUT(6))/cos(phi)) |
theta = atan(tan(THXOUT(6))/cos(phi)) |
|
c write(*,*) 'theta32 ',theta |
|
1187 |
|
|
1188 |
IF (tof32_i.GT.none_find.AND.xhelp.lt.100) THEN |
IF (tof32_i.GT.none_find.AND.xhelp.lt.100) THEN |
|
|
|
1189 |
i = tof32_i |
i = tof32_i |
1190 |
if (tof32(left,i,iadc).lt.4095) then |
if (tof32(left,i,iadc).lt.3786) then |
1191 |
tof32(left,i,iadc) = tof32(left,i,iadc)*cos(theta) |
tof32(left,i,iadc) = tof32(left,i,iadc)*cos(theta) |
1192 |
xkorr=adcx32(left,i,1)*exp(-xhelp/adcx32(left,i,2)) |
xkorr = atten(left,32,i,xhelp) |
1193 |
xkorr=xkorr/hepratio |
if (iz.le.1) xkorr=xkorr/hepratio |
1194 |
adc_c(ch32a(i),hb32a(i))=tof32(left,i,iadc)/xkorr |
adc_c(ch32a(i),hb32a(i))=tof32(left,i,iadc)/xkorr |
1195 |
endif |
endif |
1196 |
|
|
1197 |
if (tof32(right,i,iadc).lt.4095) then |
if (tof32(right,i,iadc).lt.3786) then |
1198 |
tof32(right,i,iadc) = tof32(right,i,iadc)*cos(theta) |
tof32(right,i,iadc) = tof32(right,i,iadc)*cos(theta) |
1199 |
xkorr=adcx32(right,i,1)*exp(xhelp/adcx32(right,i,2)) |
xkorr = atten(right,32,i,xhelp) |
1200 |
xkorr=xkorr/hepratio |
if (iz.le.1) xkorr=xkorr/hepratio |
1201 |
adc_c(ch32b(i),hb32b(i))=tof32(right,i,iadc)/xkorr |
adc_c(ch32b(i),hb32b(i))=tof32(right,i,iadc)/xkorr |
1202 |
endif |
endif |
1203 |
ENDIF |
ENDIF |
1204 |
|
|
1205 |
|
|
1206 |
C----------------------------------------------------------------------- |
C----------------------------------------------------------------------- |
1207 |
C----------------------calculate Beta ------------------------------ |
C----------------------calculate Beta ------------------------------ |
1208 |
C----------------------------------------------------------------------- |
C----------------------------------------------------------------------- |
1209 |
C-------------------difference of sums --------------------------- |
C-------------------difference of sums --------------------------- |
1210 |
C |
C |
1211 |
C DS = (t1+t2) - t3+t4) |
C DS = (t1+t2) - t3+t4) |
1212 |
C DS = c1 + c2/beta*cos(theta) |
C DS = c1 + c2/beta*cos(theta) |
1213 |
C c2 = 2d/c gives c2 = 2d/(c*TDCresolution) TDC=50ps/channel |
C c2 = 2d/c gives c2 = 2d/(c*TDCresolution) TDC=50ps/channel |
1214 |
C => c2 = ca.60 for 0.45 m c2 = ca.109 for 0.81 m |
C => c2 = ca.60 for 0.45 m c2 = ca.109 for 0.81 m |
1215 |
C since TDC resolution varies slightly c2 has to be calibrated |
C since TDC resolution varies slightly c2 has to be calibrated |
1216 |
C instead of cos(theta) use factor F: |
C instead of cos(theta) use factor F: |
1217 |
C F = pathlength/d |
C F = pathlength/d |
1218 |
C => beta = c2*F/(DS-c1)) |
C => beta = c2*F/(DS-c1)) |
1219 |
|
|
1220 |
dist = ZTOF(1) - ZTOF(5) |
dist = ZTOF(1) - ZTOF(5) |
1222 |
DO I=1,5 |
DO I=1,5 |
1223 |
dl = dl + TLOUT(i) |
dl = dl + TLOUT(i) |
1224 |
ENDDO |
ENDDO |
1225 |
F = dl/dist |
F = dl/dist |
1226 |
|
|
1227 |
C S11 - S31 |
C S11 - S31 |
1228 |
C IF (tof11_i.GT.none_find.AND.tof31_i.GT.none_find) THEN |
C IF (tof11_i.GT.none_find.AND.tof31_i.GT.none_find) THEN |
1232 |
t2 = tof11(2,tof11_i,itdc) |
t2 = tof11(2,tof11_i,itdc) |
1233 |
t3 = tof31(1,tof31_i,itdc) |
t3 = tof31(1,tof31_i,itdc) |
1234 |
t4 = tof31(2,tof31_i,itdc) |
t4 = tof31(2,tof31_i,itdc) |
1235 |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
1236 |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
1237 |
xhelp1 = tof11(1,tof11_i,itdc)+tof11(2,tof11_i,itdc) |
xhelp1 = tof11(1,tof11_i,itdc)+tof11(2,tof11_i,itdc) |
1238 |
xhelp2 = tof31(1,tof31_i,itdc)+tof31(2,tof31_i,itdc) |
xhelp2 = tof31(1,tof31_i,itdc)+tof31(2,tof31_i,itdc) |
1239 |
ds = xhelp1-xhelp2 |
ds = xhelp1-xhelp2 |
1240 |
ihelp=(tof11_i-1)*3+tof31_i |
ihelp=(tof11_i-1)*3+tof31_i |
1241 |
c1 = k_S11S31(1,ihelp) |
c1 = k_S11S31(1,ihelp) |
1242 |
c2 = k_S11S31(2,ihelp) |
if (iz.gt.2) c1 = c1 + k1corrA1 |
1243 |
|
c2 = k_S11S31(2,ihelp) |
1244 |
beta_a(1) = c2*F/(ds-c1) |
beta_a(1) = c2*F/(ds-c1) |
1245 |
C write(*,*) 'S11-S31 ',xhelp1,xhelp2, beta_a(1) |
c write(*,*) 'S11-S31 ',c1,c2,F |
1246 |
|
c write(*,*) 'S11-S31 ',xhelp1,xhelp2, beta_a(1) |
1247 |
C-------ToF Mask - S11 - S31 |
C-------ToF Mask - S11 - S31 |
1248 |
|
|
1249 |
tofmask(ch11a(tof11_i),hb11a(tof11_i)) = |
tofmask(ch11a(tof11_i),hb11a(tof11_i)) = |
1253 |
|
|
1254 |
tofmask(ch31a(tof31_i),hb31a(tof31_i)) = |
tofmask(ch31a(tof31_i),hb31a(tof31_i)) = |
1255 |
$ tofmask(ch31a(tof31_i),hb31a(tof31_i)) + 1 |
$ tofmask(ch31a(tof31_i),hb31a(tof31_i)) + 1 |
1256 |
tofmask(ch31b(tof31_i),hb31b(tof31_i)) = |
tofmask(ch31b(tof31_i),hb31b(tof31_i)) = |
1257 |
$ tofmask(ch31b(tof31_i),hb31b(tof31_i)) + 1 |
$ tofmask(ch31b(tof31_i),hb31b(tof31_i)) + 1 |
1258 |
|
|
1259 |
ENDIF |
ENDIF |
1264 |
DO I=1,6 |
DO I=1,6 |
1265 |
dl = dl + TLOUT(i) |
dl = dl + TLOUT(i) |
1266 |
ENDDO |
ENDDO |
1267 |
F = dl/dist |
F = dl/dist |
1268 |
|
|
1269 |
C S11 - S32 |
C S11 - S32 |
1270 |
C IF (tof11_i.GT.none_find.AND.tof32_i.GT.none_find) THEN |
C IF (tof11_i.GT.none_find.AND.tof32_i.GT.none_find) THEN |
1271 |
IF ((tof11_i.GT.none_find).AND.(tof32_i.GT.none_find).AND. |
IF ((tof11_i.GT.none_find).AND.(tof32_i.GT.none_find).AND. |
1274 |
t2 = tof11(2,tof11_i,itdc) |
t2 = tof11(2,tof11_i,itdc) |
1275 |
t3 = tof32(1,tof32_i,itdc) |
t3 = tof32(1,tof32_i,itdc) |
1276 |
t4 = tof32(2,tof32_i,itdc) |
t4 = tof32(2,tof32_i,itdc) |
1277 |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
1278 |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
1279 |
xhelp1 = tof11(1,tof11_i,itdc)+tof11(2,tof11_i,itdc) |
xhelp1 = tof11(1,tof11_i,itdc)+tof11(2,tof11_i,itdc) |
1280 |
xhelp2 = tof32(1,tof32_i,itdc)+tof32(2,tof32_i,itdc) |
xhelp2 = tof32(1,tof32_i,itdc)+tof32(2,tof32_i,itdc) |
1281 |
ds = xhelp1-xhelp2 |
ds = xhelp1-xhelp2 |
1282 |
ihelp=(tof11_i-1)*3+tof32_i |
ihelp=(tof11_i-1)*3+tof32_i |
1283 |
c1 = k_S11S32(1,ihelp) |
c1 = k_S11S32(1,ihelp) |
1284 |
c2 = k_S11S32(2,ihelp) |
if (iz.gt.2) c1 = c1 + k1corrA1 |
1285 |
|
c2 = k_S11S32(2,ihelp) |
1286 |
beta_a(2) = c2*F/(ds-c1) |
beta_a(2) = c2*F/(ds-c1) |
1287 |
C write(*,*) 'S11-S32 ',xhelp1,xhelp2, beta_a(2) |
C write(*,*) 'S11-S32 ',xhelp1,xhelp2, beta_a(2) |
1288 |
|
|
1295 |
|
|
1296 |
tofmask(ch32a(tof32_i),hb32a(tof32_i)) = |
tofmask(ch32a(tof32_i),hb32a(tof32_i)) = |
1297 |
$ tofmask(ch32a(tof32_i),hb32a(tof32_i)) + 1 |
$ tofmask(ch32a(tof32_i),hb32a(tof32_i)) + 1 |
1298 |
tofmask(ch32b(tof32_i),hb32b(tof32_i)) = |
tofmask(ch32b(tof32_i),hb32b(tof32_i)) = |
1299 |
$ tofmask(ch32b(tof32_i),hb32b(tof32_i)) + 1 |
$ tofmask(ch32b(tof32_i),hb32b(tof32_i)) + 1 |
1300 |
|
|
1301 |
C------- |
C------- |
1309 |
DO I=2,5 |
DO I=2,5 |
1310 |
dl = dl + TLOUT(i) |
dl = dl + TLOUT(i) |
1311 |
ENDDO |
ENDDO |
1312 |
F = dl/dist |
F = dl/dist |
1313 |
|
|
1314 |
C IF (tof12_i.GT.none_find.AND.tof31_i.GT.none_find) THEN |
C IF (tof12_i.GT.none_find.AND.tof31_i.GT.none_find) THEN |
1315 |
IF ((tof12_i.GT.none_find).AND.(tof31_i.GT.none_find).AND. |
IF ((tof12_i.GT.none_find).AND.(tof31_i.GT.none_find).AND. |
1318 |
t2 = tof12(2,tof12_i,itdc) |
t2 = tof12(2,tof12_i,itdc) |
1319 |
t3 = tof31(1,tof31_i,itdc) |
t3 = tof31(1,tof31_i,itdc) |
1320 |
t4 = tof31(2,tof31_i,itdc) |
t4 = tof31(2,tof31_i,itdc) |
1321 |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
1322 |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
1323 |
xhelp1 = tof12(1,tof12_i,itdc)+tof12(2,tof12_i,itdc) |
xhelp1 = tof12(1,tof12_i,itdc)+tof12(2,tof12_i,itdc) |
1324 |
xhelp2 = tof31(1,tof31_i,itdc)+tof31(2,tof31_i,itdc) |
xhelp2 = tof31(1,tof31_i,itdc)+tof31(2,tof31_i,itdc) |
1325 |
ds = xhelp1-xhelp2 |
ds = xhelp1-xhelp2 |
1326 |
ihelp=(tof12_i-1)*3+tof31_i |
ihelp=(tof12_i-1)*3+tof31_i |
1327 |
c1 = k_S12S31(1,ihelp) |
c1 = k_S12S31(1,ihelp) |
1328 |
|
if (iz.gt.2) c1 = c1 + k1corrA1 |
1329 |
c2 = k_S12S31(2,ihelp) |
c2 = k_S12S31(2,ihelp) |
1330 |
beta_a(3) = c2*F/(ds-c1) |
beta_a(3) = c2*F/(ds-c1) |
1331 |
C write(*,*) 'S12-S31 ',xhelp1,xhelp2, beta_a(3) |
C write(*,*) 'S12-S31 ',xhelp1,xhelp2, beta_a(3) |
1339 |
|
|
1340 |
tofmask(ch31a(tof31_i),hb31a(tof31_i)) = |
tofmask(ch31a(tof31_i),hb31a(tof31_i)) = |
1341 |
$ tofmask(ch31a(tof31_i),hb31a(tof31_i)) + 1 |
$ tofmask(ch31a(tof31_i),hb31a(tof31_i)) + 1 |
1342 |
tofmask(ch31b(tof31_i),hb31b(tof31_i)) = |
tofmask(ch31b(tof31_i),hb31b(tof31_i)) = |
1343 |
$ tofmask(ch31b(tof31_i),hb31b(tof31_i)) + 1 |
$ tofmask(ch31b(tof31_i),hb31b(tof31_i)) + 1 |
1344 |
|
|
1345 |
C------- |
C------- |
1354 |
DO I=2,6 |
DO I=2,6 |
1355 |
dl = dl + TLOUT(i) |
dl = dl + TLOUT(i) |
1356 |
ENDDO |
ENDDO |
1357 |
F = dl/dist |
F = dl/dist |
1358 |
|
|
1359 |
C IF (tof12_i.GT.none_find.AND.tof32_i.GT.none_find) THEN |
C IF (tof12_i.GT.none_find.AND.tof32_i.GT.none_find) THEN |
1360 |
IF ((tof12_i.GT.none_find).AND.(tof32_i.GT.none_find).AND. |
IF ((tof12_i.GT.none_find).AND.(tof32_i.GT.none_find).AND. |
1363 |
t2 = tof12(2,tof12_i,itdc) |
t2 = tof12(2,tof12_i,itdc) |
1364 |
t3 = tof32(1,tof32_i,itdc) |
t3 = tof32(1,tof32_i,itdc) |
1365 |
t4 = tof32(2,tof32_i,itdc) |
t4 = tof32(2,tof32_i,itdc) |
1366 |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
1367 |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
1368 |
xhelp1 = tof12(1,tof12_i,itdc)+tof12(2,tof12_i,itdc) |
xhelp1 = tof12(1,tof12_i,itdc)+tof12(2,tof12_i,itdc) |
1369 |
xhelp2 = tof32(1,tof32_i,itdc)+tof32(2,tof32_i,itdc) |
xhelp2 = tof32(1,tof32_i,itdc)+tof32(2,tof32_i,itdc) |
1370 |
ds = xhelp1-xhelp2 |
ds = xhelp1-xhelp2 |
1371 |
ihelp=(tof12_i-1)*3+tof32_i |
ihelp=(tof12_i-1)*3+tof32_i |
1372 |
c1 = k_S12S32(1,ihelp) |
c1 = k_S12S32(1,ihelp) |
1373 |
|
if (iz.gt.2) c1 = c1 + k1corrA1 |
1374 |
c2 = k_S12S32(2,ihelp) |
c2 = k_S12S32(2,ihelp) |
1375 |
beta_a(4) = c2*F/(ds-c1) |
beta_a(4) = c2*F/(ds-c1) |
1376 |
C write(*,*) 'S12-S32 ',xhelp1,xhelp2, beta_a(4) |
C write(*,*) 'S12-S32 ',xhelp1,xhelp2, beta_a(4) |
1384 |
|
|
1385 |
tofmask(ch32a(tof32_i),hb32a(tof32_i)) = |
tofmask(ch32a(tof32_i),hb32a(tof32_i)) = |
1386 |
$ tofmask(ch32a(tof32_i),hb32a(tof32_i)) + 1 |
$ tofmask(ch32a(tof32_i),hb32a(tof32_i)) + 1 |
1387 |
tofmask(ch32b(tof32_i),hb32b(tof32_i)) = |
tofmask(ch32b(tof32_i),hb32b(tof32_i)) = |
1388 |
$ tofmask(ch32b(tof32_i),hb32b(tof32_i)) + 1 |
$ tofmask(ch32b(tof32_i),hb32b(tof32_i)) + 1 |
1389 |
|
|
1390 |
C------- |
C------- |
1399 |
DO I=3,5 |
DO I=3,5 |
1400 |
dl = dl + TLOUT(i) |
dl = dl + TLOUT(i) |
1401 |
ENDDO |
ENDDO |
1402 |
F = dl/dist |
F = dl/dist |
1403 |
|
|
1404 |
C IF (tof21_i.GT.none_find.AND.tof31_i.GT.none_find) THEN |
C IF (tof21_i.GT.none_find.AND.tof31_i.GT.none_find) THEN |
1405 |
IF ((tof21_i.GT.none_find).AND.(tof31_i.GT.none_find).AND. |
IF ((tof21_i.GT.none_find).AND.(tof31_i.GT.none_find).AND. |
1408 |
t2 = tof21(2,tof21_i,itdc) |
t2 = tof21(2,tof21_i,itdc) |
1409 |
t3 = tof31(1,tof31_i,itdc) |
t3 = tof31(1,tof31_i,itdc) |
1410 |
t4 = tof31(2,tof31_i,itdc) |
t4 = tof31(2,tof31_i,itdc) |
1411 |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
1412 |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
1413 |
xhelp1 = tof21(1,tof21_i,itdc)+tof21(2,tof21_i,itdc) |
xhelp1 = tof21(1,tof21_i,itdc)+tof21(2,tof21_i,itdc) |
1414 |
xhelp2 = tof31(1,tof31_i,itdc)+tof31(2,tof31_i,itdc) |
xhelp2 = tof31(1,tof31_i,itdc)+tof31(2,tof31_i,itdc) |
1415 |
ds = xhelp1-xhelp2 |
ds = xhelp1-xhelp2 |
1416 |
ihelp=(tof21_i-1)*3+tof31_i |
ihelp=(tof21_i-1)*3+tof31_i |
1417 |
c1 = k_S21S31(1,ihelp) |
c1 = k_S21S31(1,ihelp) |
1418 |
|
if (iz.gt.2) c1 = c1 + k1corrB1 |
1419 |
c2 = k_S21S31(2,ihelp) |
c2 = k_S21S31(2,ihelp) |
1420 |
beta_a(5) = c2*F/(ds-c1) |
beta_a(5) = c2*F/(ds-c1) |
1421 |
|
|
1428 |
|
|
1429 |
tofmask(ch31a(tof31_i),hb31a(tof31_i)) = |
tofmask(ch31a(tof31_i),hb31a(tof31_i)) = |
1430 |
$ tofmask(ch31a(tof31_i),hb31a(tof31_i)) + 1 |
$ tofmask(ch31a(tof31_i),hb31a(tof31_i)) + 1 |
1431 |
tofmask(ch31b(tof31_i),hb31b(tof31_i)) = |
tofmask(ch31b(tof31_i),hb31b(tof31_i)) = |
1432 |
$ tofmask(ch31b(tof31_i),hb31b(tof31_i)) + 1 |
$ tofmask(ch31b(tof31_i),hb31b(tof31_i)) + 1 |
1433 |
|
|
1434 |
C------- |
C------- |
1443 |
DO I=3,6 |
DO I=3,6 |
1444 |
dl = dl + TLOUT(i) |
dl = dl + TLOUT(i) |
1445 |
ENDDO |
ENDDO |
1446 |
F = dl/dist |
F = dl/dist |
1447 |
|
|
1448 |
C IF (tof21_i.GT.none_find.AND.tof32_i.GT.none_find) THEN |
C IF (tof21_i.GT.none_find.AND.tof32_i.GT.none_find) THEN |
1449 |
IF ((tof21_i.GT.none_find).AND.(tof32_i.GT.none_find).AND. |
IF ((tof21_i.GT.none_find).AND.(tof32_i.GT.none_find).AND. |
1452 |
t2 = tof21(2,tof21_i,itdc) |
t2 = tof21(2,tof21_i,itdc) |
1453 |
t3 = tof32(1,tof32_i,itdc) |
t3 = tof32(1,tof32_i,itdc) |
1454 |
t4 = tof32(2,tof32_i,itdc) |
t4 = tof32(2,tof32_i,itdc) |
1455 |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
1456 |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
1457 |
xhelp1 = tof21(1,tof21_i,itdc)+tof21(2,tof21_i,itdc) |
xhelp1 = tof21(1,tof21_i,itdc)+tof21(2,tof21_i,itdc) |
1458 |
xhelp2 = tof32(1,tof32_i,itdc)+tof32(2,tof32_i,itdc) |
xhelp2 = tof32(1,tof32_i,itdc)+tof32(2,tof32_i,itdc) |
1459 |
ds = xhelp1-xhelp2 |
ds = xhelp1-xhelp2 |
1460 |
ihelp=(tof21_i-1)*3+tof32_i |
ihelp=(tof21_i-1)*3+tof32_i |
1461 |
c1 = k_S21S32(1,ihelp) |
c1 = k_S21S32(1,ihelp) |
1462 |
|
if (iz.gt.2) c1 = c1 + k1corrB1 |
1463 |
c2 = k_S21S32(2,ihelp) |
c2 = k_S21S32(2,ihelp) |
1464 |
beta_a(6) = c2*F/(ds-c1) |
beta_a(6) = c2*F/(ds-c1) |
1465 |
|
|
1472 |
|
|
1473 |
tofmask(ch32a(tof32_i),hb32a(tof32_i)) = |
tofmask(ch32a(tof32_i),hb32a(tof32_i)) = |
1474 |
$ tofmask(ch32a(tof32_i),hb32a(tof32_i)) + 1 |
$ tofmask(ch32a(tof32_i),hb32a(tof32_i)) + 1 |
1475 |
tofmask(ch32b(tof32_i),hb32b(tof32_i)) = |
tofmask(ch32b(tof32_i),hb32b(tof32_i)) = |
1476 |
$ tofmask(ch32b(tof32_i),hb32b(tof32_i)) + 1 |
$ tofmask(ch32b(tof32_i),hb32b(tof32_i)) + 1 |
1477 |
|
|
1478 |
C------- |
C------- |
1487 |
DO I=4,5 |
DO I=4,5 |
1488 |
dl = dl + TLOUT(i) |
dl = dl + TLOUT(i) |
1489 |
ENDDO |
ENDDO |
1490 |
F = dl/dist |
F = dl/dist |
1491 |
|
|
1492 |
C IF (tof22_i.GT.none_find.AND.tof31_i.GT.none_find) THEN |
C IF (tof22_i.GT.none_find.AND.tof31_i.GT.none_find) THEN |
1493 |
IF ((tof22_i.GT.none_find).AND.(tof31_i.GT.none_find).AND. |
IF ((tof22_i.GT.none_find).AND.(tof31_i.GT.none_find).AND. |
1496 |
t2 = tof22(2,tof22_i,itdc) |
t2 = tof22(2,tof22_i,itdc) |
1497 |
t3 = tof31(1,tof31_i,itdc) |
t3 = tof31(1,tof31_i,itdc) |
1498 |
t4 = tof31(2,tof31_i,itdc) |
t4 = tof31(2,tof31_i,itdc) |
1499 |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
1500 |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
1501 |
xhelp1 = tof22(1,tof22_i,itdc)+tof22(2,tof22_i,itdc) |
xhelp1 = tof22(1,tof22_i,itdc)+tof22(2,tof22_i,itdc) |
1502 |
xhelp2 = tof31(1,tof31_i,itdc)+tof31(2,tof31_i,itdc) |
xhelp2 = tof31(1,tof31_i,itdc)+tof31(2,tof31_i,itdc) |
1503 |
ds = xhelp1-xhelp2 |
ds = xhelp1-xhelp2 |
1504 |
ihelp=(tof22_i-1)*3+tof31_i |
ihelp=(tof22_i-1)*3+tof31_i |
1505 |
c1 = k_S22S31(1,ihelp) |
c1 = k_S22S31(1,ihelp) |
1506 |
|
if (iz.gt.2) c1 = c1 + k1corrB1 |
1507 |
c2 = k_S22S31(2,ihelp) |
c2 = k_S22S31(2,ihelp) |
1508 |
beta_a(7) = c2*F/(ds-c1) |
beta_a(7) = c2*F/(ds-c1) |
1509 |
|
|
1516 |
|
|
1517 |
tofmask(ch31a(tof31_i),hb31a(tof31_i)) = |
tofmask(ch31a(tof31_i),hb31a(tof31_i)) = |
1518 |
$ tofmask(ch31a(tof31_i),hb31a(tof31_i)) + 1 |
$ tofmask(ch31a(tof31_i),hb31a(tof31_i)) + 1 |
1519 |
tofmask(ch31b(tof31_i),hb31b(tof31_i)) = |
tofmask(ch31b(tof31_i),hb31b(tof31_i)) = |
1520 |
$ tofmask(ch31b(tof31_i),hb31b(tof31_i)) + 1 |
$ tofmask(ch31b(tof31_i),hb31b(tof31_i)) + 1 |
1521 |
|
|
1522 |
C------- |
C------- |
1523 |
|
|
1524 |
ENDIF |
ENDIF |
1525 |
ENDIF |
ENDIF |
1526 |
|
|
1527 |
C S22 - S32 |
C S22 - S32 |
1528 |
|
|
1529 |
dist = ZTOF(4) - ZTOF(6) |
dist = ZTOF(4) - ZTOF(6) |
1531 |
DO I=4,6 |
DO I=4,6 |
1532 |
dl = dl + TLOUT(i) |
dl = dl + TLOUT(i) |
1533 |
ENDDO |
ENDDO |
1534 |
F = dl/dist |
F = dl/dist |
1535 |
|
|
1536 |
C IF (tof22_i.GT.none_find.AND.tof32_i.GT.none_find) THEN |
C IF (tof22_i.GT.none_find.AND.tof32_i.GT.none_find) THEN |
1537 |
IF ((tof22_i.GT.none_find).AND.(tof32_i.GT.none_find).AND. |
IF ((tof22_i.GT.none_find).AND.(tof32_i.GT.none_find).AND. |
1540 |
t2 = tof22(2,tof22_i,itdc) |
t2 = tof22(2,tof22_i,itdc) |
1541 |
t3 = tof32(1,tof32_i,itdc) |
t3 = tof32(1,tof32_i,itdc) |
1542 |
t4 = tof32(2,tof32_i,itdc) |
t4 = tof32(2,tof32_i,itdc) |
1543 |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
1544 |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
1545 |
xhelp1 = tof22(1,tof22_i,itdc)+tof22(2,tof22_i,itdc) |
xhelp1 = tof22(1,tof22_i,itdc)+tof22(2,tof22_i,itdc) |
1546 |
xhelp2 = tof32(1,tof32_i,itdc)+tof32(2,tof32_i,itdc) |
xhelp2 = tof32(1,tof32_i,itdc)+tof32(2,tof32_i,itdc) |
1547 |
ds = xhelp1-xhelp2 |
ds = xhelp1-xhelp2 |
1548 |
ihelp=(tof22_i-1)*3+tof32_i |
ihelp=(tof22_i-1)*3+tof32_i |
1549 |
c1 = k_S22S32(1,ihelp) |
c1 = k_S22S32(1,ihelp) |
1550 |
|
if (iz.gt.2) c1 = c1 + k1corrB1 |
1551 |
c2 = k_S22S32(2,ihelp) |
c2 = k_S22S32(2,ihelp) |
1552 |
beta_a(8) = c2*F/(ds-c1) |
beta_a(8) = c2*F/(ds-c1) |
1553 |
|
|
1560 |
|
|
1561 |
tofmask(ch32a(tof32_i),hb32a(tof32_i)) = |
tofmask(ch32a(tof32_i),hb32a(tof32_i)) = |
1562 |
$ tofmask(ch32a(tof32_i),hb32a(tof32_i)) + 1 |
$ tofmask(ch32a(tof32_i),hb32a(tof32_i)) + 1 |
1563 |
tofmask(ch32b(tof32_i),hb32b(tof32_i)) = |
tofmask(ch32b(tof32_i),hb32b(tof32_i)) = |
1564 |
$ tofmask(ch32b(tof32_i),hb32b(tof32_i)) + 1 |
$ tofmask(ch32b(tof32_i),hb32b(tof32_i)) + 1 |
1565 |
|
|
1566 |
C------- |
C------- |
1575 |
DO I=1,3 |
DO I=1,3 |
1576 |
dl = dl + TLOUT(i) |
dl = dl + TLOUT(i) |
1577 |
ENDDO |
ENDDO |
1578 |
F = dl/dist |
F = dl/dist |
1579 |
|
|
1580 |
C IF (tof11_i.GT.none_find.AND.tof21_i.GT.none_find) THEN |
C IF (tof11_i.GT.none_find.AND.tof21_i.GT.none_find) THEN |
1581 |
IF ((tof11_i.GT.none_find).AND.(tof21_i.GT.none_find).AND. |
IF ((tof11_i.GT.none_find).AND.(tof21_i.GT.none_find).AND. |
1584 |
t2 = tof11(2,tof11_i,itdc) |
t2 = tof11(2,tof11_i,itdc) |
1585 |
t3 = tof21(1,tof21_i,itdc) |
t3 = tof21(1,tof21_i,itdc) |
1586 |
t4 = tof21(2,tof21_i,itdc) |
t4 = tof21(2,tof21_i,itdc) |
1587 |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
1588 |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
1589 |
xhelp1 = tof11(1,tof11_i,itdc)+tof11(2,tof11_i,itdc) |
xhelp1 = tof11(1,tof11_i,itdc)+tof11(2,tof11_i,itdc) |
1590 |
xhelp2 = tof21(1,tof21_i,itdc)+tof21(2,tof21_i,itdc) |
xhelp2 = tof21(1,tof21_i,itdc)+tof21(2,tof21_i,itdc) |
1591 |
ds = xhelp1-xhelp2 |
ds = xhelp1-xhelp2 |
1592 |
ihelp=(tof11_i-1)*2+tof21_i |
ihelp=(tof11_i-1)*2+tof21_i |
1593 |
c1 = k_S11S21(1,ihelp) |
c1 = k_S11S21(1,ihelp) |
1594 |
|
if (iz.gt.2) c1 = c1 + k1corrC1 |
1595 |
c2 = k_S11S21(2,ihelp) |
c2 = k_S11S21(2,ihelp) |
1596 |
beta_a(9) = c2*F/(ds-c1) |
beta_a(9) = c2*F/(ds-c1) |
1597 |
|
|
1604 |
|
|
1605 |
tofmask(ch21a(tof21_i),hb21a(tof21_i)) = |
tofmask(ch21a(tof21_i),hb21a(tof21_i)) = |
1606 |
$ tofmask(ch21a(tof21_i),hb21a(tof21_i)) + 1 |
$ tofmask(ch21a(tof21_i),hb21a(tof21_i)) + 1 |
1607 |
tofmask(ch21b(tof21_i),hb21b(tof21_i)) = |
tofmask(ch21b(tof21_i),hb21b(tof21_i)) = |
1608 |
$ tofmask(ch21b(tof21_i),hb21b(tof21_i)) + 1 |
$ tofmask(ch21b(tof21_i),hb21b(tof21_i)) + 1 |
1609 |
|
|
1610 |
C------- |
C------- |
1611 |
|
|
1612 |
ENDIF |
ENDIF |
1613 |
ENDIF |
ENDIF |
1614 |
|
|
1615 |
C S11 - S22 |
C S11 - S22 |
1616 |
|
|
1617 |
dist = ZTOF(1) - ZTOF(4) |
dist = ZTOF(1) - ZTOF(4) |
1619 |
DO I=1,4 |
DO I=1,4 |
1620 |
dl = dl + TLOUT(i) |
dl = dl + TLOUT(i) |
1621 |
ENDDO |
ENDDO |
1622 |
F = dl/dist |
F = dl/dist |
1623 |
|
|
1624 |
C IF (tof11_i.GT.none_find.AND.tof22_i.GT.none_find) THEN |
C IF (tof11_i.GT.none_find.AND.tof22_i.GT.none_find) THEN |
1625 |
IF ((tof11_i.GT.none_find).AND.(tof22_i.GT.none_find).AND. |
IF ((tof11_i.GT.none_find).AND.(tof22_i.GT.none_find).AND. |
1628 |
t2 = tof11(2,tof11_i,itdc) |
t2 = tof11(2,tof11_i,itdc) |
1629 |
t3 = tof22(1,tof22_i,itdc) |
t3 = tof22(1,tof22_i,itdc) |
1630 |
t4 = tof22(2,tof22_i,itdc) |
t4 = tof22(2,tof22_i,itdc) |
1631 |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
1632 |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
1633 |
xhelp1 = tof11(1,tof11_i,itdc)+tof11(2,tof11_i,itdc) |
xhelp1 = tof11(1,tof11_i,itdc)+tof11(2,tof11_i,itdc) |
1634 |
xhelp2 = tof22(1,tof22_i,itdc)+tof22(2,tof22_i,itdc) |
xhelp2 = tof22(1,tof22_i,itdc)+tof22(2,tof22_i,itdc) |
1635 |
ds = xhelp1-xhelp2 |
ds = xhelp1-xhelp2 |
1636 |
ihelp=(tof11_i-1)*2+tof22_i |
ihelp=(tof11_i-1)*2+tof22_i |
1637 |
c1 = k_S11S22(1,ihelp) |
c1 = k_S11S22(1,ihelp) |
1638 |
|
if (iz.gt.2) c1 = c1 + k1corrC1 |
1639 |
c2 = k_S11S22(2,ihelp) |
c2 = k_S11S22(2,ihelp) |
1640 |
beta_a(10) = c2*F/(ds-c1) |
beta_a(10) = c2*F/(ds-c1) |
1641 |
|
|
1648 |
|
|
1649 |
tofmask(ch22a(tof22_i),hb22a(tof22_i)) = |
tofmask(ch22a(tof22_i),hb22a(tof22_i)) = |
1650 |
$ tofmask(ch22a(tof22_i),hb22a(tof22_i)) + 1 |
$ tofmask(ch22a(tof22_i),hb22a(tof22_i)) + 1 |
1651 |
tofmask(ch22b(tof22_i),hb22b(tof22_i)) = |
tofmask(ch22b(tof22_i),hb22b(tof22_i)) = |
1652 |
$ tofmask(ch22b(tof22_i),hb22b(tof22_i)) + 1 |
$ tofmask(ch22b(tof22_i),hb22b(tof22_i)) + 1 |
1653 |
|
|
1654 |
C------- |
C------- |
1663 |
DO I=2,3 |
DO I=2,3 |
1664 |
dl = dl + TLOUT(i) |
dl = dl + TLOUT(i) |
1665 |
ENDDO |
ENDDO |
1666 |
F = dl/dist |
F = dl/dist |
1667 |
|
|
1668 |
C IF (tof12_i.GT.none_find.AND.tof21_i.GT.none_find) THEN |
C IF (tof12_i.GT.none_find.AND.tof21_i.GT.none_find) THEN |
1669 |
IF ((tof12_i.GT.none_find).AND.(tof21_i.GT.none_find).AND. |
IF ((tof12_i.GT.none_find).AND.(tof21_i.GT.none_find).AND. |
1672 |
t2 = tof12(2,tof12_i,itdc) |
t2 = tof12(2,tof12_i,itdc) |
1673 |
t3 = tof21(1,tof21_i,itdc) |
t3 = tof21(1,tof21_i,itdc) |
1674 |
t4 = tof21(2,tof21_i,itdc) |
t4 = tof21(2,tof21_i,itdc) |
1675 |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
1676 |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
1677 |
xhelp1 = tof12(1,tof12_i,itdc)+tof12(2,tof12_i,itdc) |
xhelp1 = tof12(1,tof12_i,itdc)+tof12(2,tof12_i,itdc) |
1678 |
xhelp2 = tof21(1,tof21_i,itdc)+tof21(2,tof21_i,itdc) |
xhelp2 = tof21(1,tof21_i,itdc)+tof21(2,tof21_i,itdc) |
1679 |
ds = xhelp1-xhelp2 |
ds = xhelp1-xhelp2 |
1680 |
ihelp=(tof12_i-1)*2+tof21_i |
ihelp=(tof12_i-1)*2+tof21_i |
1681 |
c1 = k_S12S21(1,ihelp) |
c1 = k_S12S21(1,ihelp) |
1682 |
|
if (iz.gt.2) c1 = c1 + k1corrC1 |
1683 |
c2 = k_S12S21(2,ihelp) |
c2 = k_S12S21(2,ihelp) |
1684 |
beta_a(11) = c2*F/(ds-c1) |
beta_a(11) = c2*F/(ds-c1) |
1685 |
|
|
1692 |
|
|
1693 |
tofmask(ch21a(tof21_i),hb21a(tof21_i)) = |
tofmask(ch21a(tof21_i),hb21a(tof21_i)) = |
1694 |
$ tofmask(ch21a(tof21_i),hb21a(tof21_i)) + 1 |
$ tofmask(ch21a(tof21_i),hb21a(tof21_i)) + 1 |
1695 |
tofmask(ch21b(tof21_i),hb21b(tof21_i)) = |
tofmask(ch21b(tof21_i),hb21b(tof21_i)) = |
1696 |
$ tofmask(ch21b(tof21_i),hb21b(tof21_i)) + 1 |
$ tofmask(ch21b(tof21_i),hb21b(tof21_i)) + 1 |
1697 |
|
|
1698 |
C------- |
C------- |
1707 |
DO I=2,4 |
DO I=2,4 |
1708 |
dl = dl + TLOUT(i) |
dl = dl + TLOUT(i) |
1709 |
ENDDO |
ENDDO |
1710 |
F = dl/dist |
F = dl/dist |
1711 |
|
|
1712 |
C IF (tof12_i.GT.none_find.AND.tof22_i.GT.none_find) THEN |
C IF (tof12_i.GT.none_find.AND.tof22_i.GT.none_find) THEN |
1713 |
IF ((tof12_i.GT.none_find).AND.(tof22_i.GT.none_find).AND. |
IF ((tof12_i.GT.none_find).AND.(tof22_i.GT.none_find).AND. |
1716 |
t2 = tof12(2,tof12_i,itdc) |
t2 = tof12(2,tof12_i,itdc) |
1717 |
t3 = tof22(1,tof22_i,itdc) |
t3 = tof22(1,tof22_i,itdc) |
1718 |
t4 = tof22(2,tof22_i,itdc) |
t4 = tof22(2,tof22_i,itdc) |
1719 |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
IF ((t1.lt.4095).and.(t2.lt.4095).and. |
1720 |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
& (t3.lt.4095).and.(t4.lt.4095)) THEN |
1721 |
xhelp1 = tof12(1,tof12_i,itdc)+tof12(2,tof12_i,itdc) |
xhelp1 = tof12(1,tof12_i,itdc)+tof12(2,tof12_i,itdc) |
1722 |
xhelp2 = tof22(1,tof22_i,itdc)+tof22(2,tof22_i,itdc) |
xhelp2 = tof22(1,tof22_i,itdc)+tof22(2,tof22_i,itdc) |
1723 |
ds = xhelp1-xhelp2 |
ds = xhelp1-xhelp2 |
1724 |
ihelp=(tof12_i-1)*2+tof22_i |
ihelp=(tof12_i-1)*2+tof22_i |
1725 |
c1 = k_S12S22(1,ihelp) |
c1 = k_S12S22(1,ihelp) |
1726 |
|
if (iz.gt.2) c1 = c1 + k1corrC1 |
1727 |
c2 = k_S12S22(2,ihelp) |
c2 = k_S12S22(2,ihelp) |
1728 |
beta_a(12) = c2*F/(ds-c1) |
beta_a(12) = c2*F/(ds-c1) |
1729 |
|
|
1736 |
|
|
1737 |
tofmask(ch22a(tof22_i),hb22a(tof22_i)) = |
tofmask(ch22a(tof22_i),hb22a(tof22_i)) = |
1738 |
$ tofmask(ch22a(tof22_i),hb22a(tof22_i)) + 1 |
$ tofmask(ch22a(tof22_i),hb22a(tof22_i)) + 1 |
1739 |
tofmask(ch22b(tof22_i),hb22b(tof22_i)) = |
tofmask(ch22b(tof22_i),hb22b(tof22_i)) = |
1740 |
$ tofmask(ch22b(tof22_i),hb22b(tof22_i)) + 1 |
$ tofmask(ch22b(tof22_i),hb22b(tof22_i)) + 1 |
1741 |
|
|
1742 |
C------- |
C------- |
1743 |
|
|
1744 |
ENDIF |
ENDIF |
1745 |
ENDIF |
ENDIF |
1746 |
|
|
1747 |
C------- |
C------- |
1748 |
|
C |
1749 |
|
C icount=0 |
1750 |
|
C sw=0. |
1751 |
|
C sxw=0. |
1752 |
|
C beta_mean=100. |
1753 |
|
C |
1754 |
|
C do i=1,12 |
1755 |
|
C if ((beta_a(i).gt.-1.5).and.(beta_a(i).lt.1.5)) then |
1756 |
|
C icount= icount+1 |
1757 |
|
C if (i.le.4) w_i=1./(0.13**2.) |
1758 |
|
C if ((i.ge.5).and.(i.le.8)) w_i=1./(0.16**2.) |
1759 |
|
C if (i.ge.9) w_i=1./(0.25**2.) ! to be checked |
1760 |
|
C sxw=sxw + beta_a(i)*w_i |
1761 |
|
C sw =sw + w_i |
1762 |
|
C endif |
1763 |
|
C enddo |
1764 |
|
C |
1765 |
|
C if (icount.gt.0) beta_mean=sxw/sw |
1766 |
|
C beta_a(13) = beta_mean |
1767 |
|
C |
1768 |
|
C------- New mean beta calculation |
1769 |
|
|
1770 |
|
do i=1,12 |
1771 |
|
btemp(i) = beta_a(i) |
1772 |
|
enddo |
1773 |
|
|
1774 |
icount=0 |
beta_a(13)=newbeta(btemp,hitvec,10.,10.,20.) |
|
sw=0. |
|
|
sxw=0. |
|
|
beta_mean=100. |
|
1775 |
|
|
1776 |
do i=1,12 |
C------- |
|
if ((beta_a(i).gt.-1.5).and.(beta_a(i).lt.1.5)) then |
|
|
icount= icount+1 |
|
|
if (i.le.4) w_i=1./(0.13**2.) |
|
|
if ((i.ge.5).and.(i.le.8)) w_i=1./(0.16**2.) |
|
|
if (i.ge.9) w_i=1./(0.25**2.) ! to be checked |
|
|
sxw=sxw + beta_a(i)*w_i |
|
|
sw =sw + w_i |
|
|
endif |
|
|
enddo |
|
|
|
|
|
if (icount.gt.0) beta_mean=sxw/sw |
|
|
beta_a(13) = beta_mean |
|
1777 |
|
|
1778 |
|
|
1779 |
c IF (tof11_i.GT.none_find) |
c IF (tof11_i.GT.none_find) |
1780 |
c & write(*,*) '11 ',tof11(1,tof11_i,itdc),tof11(2,tof11_i,itdc) |
c & write(*,*) '11 ',tof11(1,tof11_i,itdc),tof11(2,tof11_i,itdc) |
1781 |
c IF (tof12_i.GT.none_find) |
c IF (tof12_i.GT.none_find) |
1782 |
c & write(*,*) '12 ',tof12(1,tof12_i,itdc),tof12(2,tof12_i,itdc) |
c & write(*,*) '12 ',tof12(1,tof12_i,itdc),tof12(2,tof12_i,itdc) |
1783 |
|
|
1784 |
c IF (tof21_i.GT.none_find) |
c IF (tof21_i.GT.none_find) |
1785 |
c & write(*,*) '21 ',tof21(1,tof21_i,itdc),tof21(2,tof21_i,itdc) |
c & write(*,*) '21 ',tof21(1,tof21_i,itdc),tof21(2,tof21_i,itdc) |
1786 |
c IF (tof22_i.GT.none_find) |
c IF (tof22_i.GT.none_find) |
1787 |
c & write(*,*) '22 ',tof22(1,tof22_i,itdc),tof22(2,tof22_i,itdc) |
c & write(*,*) '22 ',tof22(1,tof22_i,itdc),tof22(2,tof22_i,itdc) |
1788 |
|
|
1789 |
c IF (tof31_i.GT.none_find) |
c IF (tof31_i.GT.none_find) |
1790 |
c & write(*,*) '31 ',tof31(1,tof31_i,itdc),tof31(2,tof31_i,itdc) |
c & write(*,*) '31 ',tof31(1,tof31_i,itdc),tof31(2,tof31_i,itdc) |
1791 |
c IF (tof32_i.GT.none_find) |
c IF (tof32_i.GT.none_find) |
1792 |
c & write(*,*) '32 ',tof32(1,tof32_i,itdc),tof32(2,tof32_i,itdc) |
c & write(*,*) '32 ',tof32(1,tof32_i,itdc),tof32(2,tof32_i,itdc) |
1793 |
|
|
1794 |
c write(*,*) xtofpos |
c write(*,*) xtofpos |
1795 |
c write(*,*) ytofpos |
c write(*,*) ytofpos |
1796 |
c write(*,*) beta_a |
C write(*,*)'toftrk beta', beta_a |
1797 |
C write(*,*) adcflagtof |
C write(*,*) adcflagtof |
1798 |
|
C write(*,*)'TOFTRK ',ievent,beta_a(1),beta_a(2),beta_a(3),beta_a(4) |
1799 |
|
c write(*,*) 'toftrk' |
1800 |
|
c write(*,*) xtofpos |
1801 |
|
c write(*,*) ytofpos |
1802 |
|
c write(*,*) xtr_tof |
1803 |
|
c write(*,*) ytr_tof |
1804 |
|
|
1805 |
|
|
|
C write(*,*)'TOFTRK ',ievent,beta_a(1),beta_a(2),beta_a(3),beta_a(4) |
|
1806 |
|
|
1807 |
RETURN |
RETURN |
1808 |
END |
END |
1809 |
|
|
1810 |
|
|
1811 |
|
|
1812 |
|
|
1813 |
|
C------------------------------------------------------------------ |
1814 |
|
|