OpticsTools/Scripts/Reference-SwissFEL/matchAramis.madx

!-----------------------------------
! switch yard
! matching condition at the septum, the new design by Natalia on 27th July 2011
! find the correct kicker strength to have the right dispersion and offset.
S20SY02.MKDC010.cory := 0;
S20SY02.MKAC020.cory := 0;
S20SY02.MKDC030.cory := 0;
S20SY02.MKAC040.cory := 0;
S20SY02.MKDC050.cory := 0;


!------------------------------
! match periodic lattice of linac 3
s30cb01.mqua430.k1 := 0.8168941546;
s30cb02.mqua430.k1 := -0.8168914699;
muLin3=0.1883;

match,SEQUENCE=swissfel,range=s30cb01$start/s30cb03$start;
Vary,name=S30CB01.MQUA430.k1,step=0.0001;
Vary,name=S30CB02.MQUA430.k1,step=0.0001;
constraint,sequence=swissfel,range=s30cb02$end,mux=muLin3;
constraint,sequence=swissfel,range=s30cb02$end,muy=muLin3;
lmdif,calls=100,tolerance=1e-21;
endmatch;



S30CB03.MQUA430.k1=S30CB01.MQUA430.k1;
S30CB04.MQUA430.k1=S30CB02.MQUA430.k1;
S30CB05.MQUA430.k1=S30CB01.MQUA430.k1;
S30CB06.MQUA430.k1=S30CB02.MQUA430.k1;
S30CB07.MQUA430.k1=S30CB01.MQUA430.k1;
S30CB08.MQUA430.k1=S30CB02.MQUA430.k1;
S30CB09.MQUA430.k1=S30CB01.MQUA430.k1;
S30CB10.MQUA430.k1=S30CB02.MQUA430.k1;
S30CB11.MQUA430.k1=S30CB01.MQUA430.k1;
S30CB12.MQUA430.k1=S30CB02.MQUA430.k1;
S30CB13.MQUA430.k1=S30CB01.MQUA430.k1;
S30CB14.MQUA430.k1=S30CB02.MQUA430.k1;
S30CB15.MQUA430.k1=S30CB01.MQUA430.k1;


twiss,SEQUENCE=swissfel,range=s30cb01$start/s30cb02$end;
nbetx=table(twiss,s30cb02$end,betx);
nalfx=table(twiss,s30cb02$end,alfx);
nbety=table(twiss,s30cb02$end,bety);
nalfy=table(twiss,s30cb02$end,alfy);


use,sequence=swissfel;
MATCH,SEQUENCE=swissfel,range=s20SY02$start/s30cb01$end,beta0=twisssep;
VARY,NAME=s20sy03.mqua020.k1,STEP=0.0001,lower=-2.2,upper=2.2;
VARY,NAME=s20sy03.mqua030.k1,STEP=0.0001,lower=-2.2,upper=2.2;
VARY,NAME=s20sy03.mqua050.k1,STEP=0.0001,lower=-2.2,upper=2.2;
VARY,NAME=s20sy03.mqua060.k1,STEP=0.0001,lower=-2.2,upper=2.2;
VARY,NAME=s20sy03.mqua100.k1,STEP=0.0001,lower=-2.2,upper=2.2;
CONSTRAINT,SEQUENCE=swissfel,range=s20sy03$end,betx=nbetx;
CONSTRAINT,SEQUENCE=swissfel,range=s20sy03$end,alfx=nalfx;
CONSTRAINT,SEQUENCE=swissfel,range=s20sy03$end,bety=nbety;
CONSTRAINT,SEQUENCE=swissfel,range=s20sy03$end,alfy=nalfy;
CONSTRAINT,SEQUENCE=swissfel,range=s20sy03.mqua060$start,betx<30; ! for the new design
LMDIF,CALLS=100,TOLERANCE=1.e-21;
ENDMATCH;


use,sequence=swissfel;
MATCH,SEQUENCE=swissfel,range=s20SY02$start/s30cb12$end,beta0=twisssep;
VARY,NAME=s30cb06.mqua430.k1,STEP=0.0001;
VARY,NAME=s30cb07.mqua430.k1,STEP=0.0001;
VARY,NAME=s30cb08.mqua430.k1,STEP=0.0001;
VARY,NAME=s30cb09.mqua430.k1,STEP=0.0001;
CONSTRAINT,SEQUENCE=swissfel,range=s30cb10.mqua430$start,betx=twissL3->BETX;
CONSTRAINT,SEQUENCE=swissfel,range=s30cb10.mqua430$start,alfx=twissL3->ALFX;
CONSTRAINT,SEQUENCE=swissfel,range=s30cb10.mqua430$start,bety=twissL3->BETY;
CONSTRAINT,SEQUENCE=swissfel,range=s30cb10.mqua430$start,alfy=twissL3->ALFY;
LMDIF,CALLS=100,TOLERANCE=1.e-21;
ENDMATCH;


twiss,SEQUENCE=swissfel,range=s20SY02$start/sarcl01$start,beta0=twisssep;
plot,haxis=s,vaxis=betx,bety,range=#s/#e,colour=100;



!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!1
! energy collimator
if (ECOLasBC ==0.) {
    sarcl02.mqua130.k1=1.8;
    R56 = -000e-6;

    MATCH,RMATRIX,SEQUENCE=swissfel,range=SARCL02$START/SARCL02$END,betx=10,alfx=0,bety=10,alfy=0;
    VARY,NAME=sarcl02.mqua130.k1,STEP=0.0001;
    CONSTRAINT,SEQUENCE=swissfel,range=sarcl02.mqua210,re56=R56*0.5;
    LMDIF,CALLS=100,TOLERANCE=1.e-21;
    ENDMATCH;

    sarcl02.mqua210.k1=-sarcl02.mqua130.k1*0.9;
    sarcl02.mqua250.k1= sarcl02.mqua130.k1;

    MATCH,SEQUENCE=swissfel,range=SARCL02$START/SARCL02$END,betx=10,alfx=0,bety=10,alfy=0;
    VARY,NAME=sarcl02.mqua250.k1,STEP=0.0001;
    CONSTRAINT,SEQUENCE=swissfel,range=sarcl02.dbpm260$end,dpx=0;
    LMDIF,CALLS=100,TOLERANCE=1.e-21;
    ENDMATCH;

    sarcl02.mqua310.k1=sarcl02.mqua250.k1;
    sarcl02.mqua350.k1=sarcl02.mqua210.k1;
    sarcl02.mqua460.k1=sarcl02.mqua130.k1;

    dL=0.625+0.25;
    bx0=25;
    bx=bx0+dL*dL/bx0;
    ax=-dL/bx0;
    by0=0.8;
    by=by0+dL*dL/by0;
    ay=-dL/by0;

    twiss,sequence=swissfel,range=sarcl02.mqsk300/sarcl02$end,betx=bx,alfx=ax,bety=by,alfy=ay;
    plot,haxis=s,vaxis=betx,bety,colour=100;

    nbetx= table(twiss,sarcl02$end,betx);
    nalfx=-table(twiss,sarcl02$end,alfx);
    nbety= table(twiss,sarcl02$end,bety);
    nalfy=-table(twiss,sarcl02$end,alfy);


    sarcl02.msex255.k2:=110;
    sarcl02.msex305.k2:=110;


    MATCH,chrom,SEQUENCE=sarcl02,range=#s/#e,betx=nbetx,alfx=nalfx,bety=nbety,alfy=nalfy;
    VARY,NAME=ecol_k2,STEP=0.0001;
    CONSTRAINT,SEQUENCE=Sarcl02,range=#e,ddx=0;
    LMDIF,CALLS=100,TOLERANCE=1.e-21;
    ENDMATCH;

    sarcl02.msex255.k2=ecol_k2;
    sarcl02.msex305.k2=ecol_k2;

    twiss,chrom,rmatrix,range=SARCL02$START/SARCL02$END,betx=nbetx,alfx=nalfx,bety=nbety,alfy=nalfy;
    plot,haxis=s,vaxis=betx,colour=100;
    plot,haxis=s,vaxis=bety,colour=100;
    plot,haxis=s,vaxis=dx,colour=100;
    plot,haxis=s,vaxis=ddx,colour=100;
    plot,haxis=s,vaxis=re56,colour=100;


} else {
    sarcl02.mqua130.k1=0;
    sarcl02.mqua210.k1=0;
    sarcl02.mqua250.k1=0;
    sarcl02.mqua310.k1=0;
    sarcl02.mqua350.k1=0;
    sarcl02.mqua460.k1=0;
    sarcl02.msex255.k2=0;
    sarcl02.msex305.k2=0;
}







!---------------------------------
! match into energy collimator
! reference point is sarma01-mqua010


sarcl01.mqua020.k1 := 0.4550820417;
sarcl01.mqua050.k1 := -0.02350776516;
sarcl01.mqua080.k1 := -0.3705426893;
sarcl01.mqua100.k1 := 0.3937186328;
sarcl01.mqua140.k1 := 1.214406656;
sarcl01.mqua190.k1 := -1.475278354;


use,sequence=swissfel;
MATCH,SEQUENCE=swissfel,range=s20SY02$start/sarma02$start,beta0=twisssep;
VARY,NAME=sarcl01.mqua020.k1,STEP=0.0001;
VARY,NAME=sarcl01.mqua050.k1,STEP=0.0001;
VARY,NAME=sarcl01.mqua080.k1,STEP=0.0001;
VARY,NAME=sarcl01.mqua100.k1,STEP=0.0001;
VARY,NAME=sarcl01.mqua140.k1,STEP=0.0001;
VARY,NAME=sarcl01.mqua190.k1,STEP=0.0001;
if (ECOLasBC ==0.){
    CONSTRAINT,SEQUENCE=swissfel,range=sarma01.mqua010$start,betx=twissARECOL->BETX;
    CONSTRAINT,SEQUENCE=swissfel,range=sarma01.mqua010$start,alfx=twissARECOL->ALFX;
    CONSTRAINT,SEQUENCE=swissfel,range=sarma01.mqua010$start,bety=twissARECOL->BETY;
    CONSTRAINT,SEQUENCE=swissfel,range=sarma01.mqua010$start,alfy=twissARECOL->ALFY;
    CONSTRAINT,SEQUENCE=swissfel,range=sarcl01.mqua050,bety<30;
    CONSTRAINT,SEQUENCE=swissfel,range=sarcl01.mqua190,betx<30;
 } else {
     CONSTRAINT,SEQUENCE=swissfel,range=sarcl02.dscr280$start,betx  = 10;
    CONSTRAINT,SEQUENCE=swissfel,range=sarcl02.dscr280$start,alfx=0.14;
    CONSTRAINT,SEQUENCE=swissfel,range=sarcl02.dscr280$start,bety  = 10;
    CONSTRAINT,SEQUENCE=swissfel,range=sarcl02.dscr280$start,alfy=0.14;
    CONSTRAINT,SEQUENCE=swissfel,range=sarcl01.mqua050,bety<70;
    CONSTRAINT,SEQUENCE=swissfel,range=sarcl01.mqua190,betx<70;
 }
LMDIF,CALLS=100,TOLERANCE=1.e-21;
ENDMATCH;



twiss,sequence=swissfel,range=s20SY02$start/sarcl01$start,beta0=twisssep;
plot,haxis=s,vaxis=betx,bety,range=S30CB15$START/SARCL02$END,colour=100;



!---------------------
! match periodic lattice of Aramis

muAR=0.15;
sarun03.mqua080.k1 := -1.699673315;
sarun04.mqua080.k1 := 1.746074065;

match,SEQUENCE=swissfel,range=sarun03$start/sarun04$end;
Vary,name=sarun03.mqua080.k1,step=0.0001;
Vary,name=sarun04.mqua080.k1,step=0.0001;
constraint,sequence=swissfel,range=sarun04$end,mux=muAR;
constraint,sequence=swissfel,range=sarun04$end,muy=muAR;
lmdif,calls=100,tolerance=1e-21;
endmatch;


twiss,SEQUENCE=swissfel,range=sarun03$start/sarun04$end;
nbetx=table(twiss,sarun04$end,betx);
nalfx=table(twiss,sarun04$end,alfx);
nbety=table(twiss,sarun04$end,bety);
nalfy=table(twiss,sarun04$end,alfy);


sarma02.mqua050.k1=sarun03.mqua080.k1*0.5;
sarma02.mqua120.k1=sarun04.mqua080.k1;
sarun01.mqua080.k1=sarun03.mqua080.k1;
sarun02.mqua080.k1=sarun04.mqua080.k1;

!---------------------------
! matching into the undulator line


sarma01.mqua010.k1 := -1.1706132612849132;
sarma01.mqua060.k1 := 1.5075569628969636;
sarma01.mqua080.k1 :=-0.6940972890297992;
sarma01.mqua120.k1 := -0.18956644741333395;
sarma01.mqua140.k1 :=  0.5634249743213624;



MATCH,SEQUENCE=swissfel,range=s20SY02$start/sarun06$start,beta0=twisssep;
VARY,NAME=sarma01.mqua010.k1,STEP=0.0001;
VARY,NAME=sarma01.mqua060.k1,STEP=0.0001;
VARY,NAME=sarma01.mqua080.k1,STEP=0.0001;
VARY,NAME=sarma01.mqua120.k1,STEP=0.0001;
VARY,NAME=sarma01.mqua140.k1,STEP=0.0001;
CONSTRAINT,SEQUENCE=swissfel,range=sarun03$start,betx=nbetx;
CONSTRAINT,SEQUENCE=swissfel,range=sarun03$start,alfx=nalfx;
CONSTRAINT,SEQUENCE=swissfel,range=sarun03$start,bety=nbety;
CONSTRAINT,SEQUENCE=swissfel,range=sarun03$start,alfy=nalfy;
CONSTRAINT,SEQUENCE=swissfel,range=sarma01.mqua060,betx<40;
SIMPLEX,CALLS=1000,TOLERANCE=1.e-21;
LMDIF,CALLS=1000,TOLERANCE=1.e-21;
ENDMATCH;


sarun05.mqua080.k1=sarun03.mqua080.k1;
sarun06.mqua080.k1=sarun04.mqua080.k1;
sarun07.mqua080.k1=sarun03.mqua080.k1;
sarun08.mqua080.k1=sarun04.mqua080.k1;
sarun09.mqua080.k1=sarun03.mqua080.k1;
sarun10.mqua080.k1=sarun04.mqua080.k1;
sarun11.mqua080.k1=sarun03.mqua080.k1;
sarun12.mqua080.k1=sarun04.mqua080.k1;
sarun13.mqua080.k1=sarun03.mqua080.k1;
sarun14.mqua080.k1=sarun04.mqua080.k1;
sarun15.mqua080.k1=sarun03.mqua080.k1;
sarun16.mqua080.k1=sarun04.mqua080.k1;
sarun17.mqua080.k1=sarun03.mqua080.k1;
sarun18.mqua080.k1=sarun04.mqua080.k1;

sarun19.mqua080.k1=sarun03.mqua080.k1;
sarun20.mqua080.k1=sarun04.mqua080.k1;
sarbd01.mqua020.k1=0;



match,sequence=swissfel,range=s20SY02$start/satbd02$end,beta0=twisssep;
vary,name=sarun19.mqua080.k1,step=0.0001,lower=-3,upper=3;
vary,name=sarun20.mqua080.k1,step=0.0001,lower=-3,upper=3;
vary,name=sarbd02.mqua030.k1,step=0.0001;
constraint,sequence=swissfel,range=satbd02$end,betx<200;
constraint,sequence=swissfel,range=satbd02$end,bety<150;
constraint,sequence=swissfel,range=satbd02$end,dx<100;
constraint,sequence=swissfel,range=satbd02$end,dy<0.5;
lmdif,calls=300,tolerance=1e-21;
endmatch;

twiss,RMATRIX,SEQUENCE=swissfel,range=#s/sarbd02$end,beta0=twiss0;
plot,haxis=s,vaxis=betx,bety,range=#s/#e,colour=100;