Genesis 1.3 Time dependent aw0 = 3.000000E-01 W =xlamd = 1.000000E-05 npart = 4096  = gamma0= 6.000000E+01  =delgam= 6.000000E-03  =10 -4 rxbeam=

Presentation on theme: "Genesis 1.3 Time dependent aw0 = 3.000000E-01 W =xlamd = 1.000000E-05 npart = 4096  = gamma0= 6.000000E+01  =delgam= 6.000000E-03  =10 -4 rxbeam="— Presentation transcript:

Genesis 1.3 Time dependent aw0 = 3.000000E-01 W =xlamd = 1.000000E-05 npart = 4096  = gamma0= 6.000000E+01  =delgam= 6.000000E-03  =10 -4 rxbeam= rybeam= 1.250000E-05 alphax= alphay= 0.000000E+00 emitx = emity = 2.900000E-07 r =xlamds= 1.516500E-09 prad0 = 0.000000E+00 (shot noise) ncar = 151 rmax0 = 6.000000E+00 nwig = 8000 zsep = 2.000000E+01 delz = 1.000000E+00 curpeak= 9.000000E+02 curlen= -1.000000E-03 ntail = -253 nslice= 300 shotnoise= 1.000000E+00 0.3033E-07 seperation of output slices 151 number of gridpoints 0.1678E-05 meshsize

power vs z averaged on the bunch

Power vs. z at 8 micron

Power vs z and s

Power vs s at z=0, z=2cm, z=4cm, z=6cm

Far field on the transverse plane

Ming Xie formulas From the Ming Xie formulas we have L g =L 1D (1+  ) With  =(  d  +    +3   2 +…) And:  d =L 1D /(4  x 2 )    L 1D 4  n 2 /(  x 2 w )    4  L 1D (  )/ w

Comparison between Genesis and EURA static undulator

Comparison betwen EURA static undulator and em undulator Emittx=0.29 Emittx=0.59

\$newrun filetype='xml' AW0 = 1.000000D-00 XKX = 0.000000D+00 XKY = 0.000000D+00 WCOEFZ= 0.000000D+00 0.000000D+00 0.000000D+00 XLAMD = 1.000000D-06 FBESS0= 0.000000D+00 DELAW = 0.000000D+00 IERTYP= 0 IWITYP= 1 AWD = 3.0000000D-01 ISEED = -1 NPART = 32768 GAMMA0= 1.000000D+02 DELGAM= 1.000000D-02 RXBEAM= 0.500000D-05 RYBEAM= 0.500000D-05 ALPHAX= 0.000000D+00 ALPHAY= 0.000000D+00 EMITX = 0.100000D-06 EMITY = 0.100000D-06 XBEAM = 0.000000D+00 YBEAM = 0.000000D+00 PXBEAM= 0.000000D+00 PYBEAM= 0.000000D+00 XLAMDS= 1.001000D-10 PRAD0 = 2.000000D+00 ZRAYL = 5.000000D-00 ZWAIST= 6.000000D-02 NCAR = 151 LBC = 0 RMAX0 = 6.000000D+00 NSCR = 0 NSCZ = 0 NPTR = 40 NWIG = 7000 ZSEP = 0.500000D+00 DELZ = 2.000000D+00 NSEC = 1 IORB = 0 ZSTOP = -0.000000D+00 MAGIN = 0 MAGOUT= 0 QUADF = 0.000000D-01 QUADD = 0.000000D+01 FL = 0.000000D+01 DL = 0.000000D+00 DRL = 0.000000D+00 F1ST = 0.000000D+00 QFDX = 0.000000D+00 QFDY = 0.000000D+00 ILDGAM= 5 ILDPSI= 7 ILDX = 1 ILDY = 2 ILDPX = 3 ILDPY = 4 ITGAUS= 2 LOUT = 1 1 1 1 1 0 0 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 IPHSTY= 20 ISHSTY= 1 IPPART= 500 ISPART= 0 IPRADI= 500 ISRADI= 0 IDUMP = 0 IOTAIL= 0 CURPEAK= 1.000000D+03 CURLEN= -1.000000D-03 NTAIL = -253 NSLICE= 300 SHOTNOISE= 0.000000D+00 IALL = 0 ITDP = 0 IPSEED= -5 ZSEP = 1.000000D+00 ISCAN = 0 NSCAN = 11 SVAR = 0.000500D+00 \$end

Download ppt "Genesis 1.3 Time dependent aw0 = 3.000000E-01 W =xlamd = 1.000000E-05 npart = 4096  = gamma0= 6.000000E+01  =delgam= 6.000000E-03  =10 -4 rxbeam="

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