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Minimized emittance for high charge with multi cell superconducting guns and solenoidal focusing D. Lipka, BESSY.

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Presentation on theme: "Minimized emittance for high charge with multi cell superconducting guns and solenoidal focusing D. Lipka, BESSY."— Presentation transcript:

1 Minimized emittance for high charge with multi cell superconducting guns and solenoidal focusing
D. Lipka, BESSY

2 Setup and goal for the simulation
solenoid ½ n= 1 2 3 … one module with 8 cavities TESLA cavity superconducting gun without RF focusing Minimize transverse emittance at the end of the module by vary injector parameters with simplex minimization routine 06/02/2005 D. Lipka, BESSY

3 Tool for the optimization
Beam dynamic simulation with Astra ROOT program calls Astra and reads the result Implemented Simplex minimization routine in ROOT changes the parameters to find the minimum transverse emittance (multi dimensional minimization routine) 06/02/2005 D. Lipka, BESSY

4 Simplex n = 1 n = 2 NELDER and MEAD 06/02/2005 D. Lipka, BESSY

5 Basic simplex n = 2 06/02/2005 D. Lipka, BESSY

6 Simplex n = 2 reflection stretching flattening contraction 06/02/2005
D. Lipka, BESSY

7 Parameters of the simulation
Fixed parameters Q = 2.5 nC (BESSY FEL mode) Fall and rise time of Flat Top laser distribution = 4 ps Emax,gun = 60 MV/m Emax, last 4 TESLA cavities = 32 MV/m Distance peak solenoid field to cathode (magnetic field at full cell lower than 3 mT): n = 1: 0.6 m n = 2: 0.7 m n = 3: 1.0 m Varied parameters RMS transverse laser size (thermal emittance scaled accordingly): 0.1 – 3 mm FWHM laser duration: 15 – 100 ps Bmax: 0 – 0.4 T Distance cathode to middle of first TESLA cavity (complete module is moved accordingly): 1 – 7 m Each Emax of first 4 TESLA cavities: 5 – 33 MV/m  8 parameters 06/02/2005 D. Lipka, BESSY

8 Result: beam size n = 1 n = 2 n = 3 06/02/2005 D. Lipka, BESSY

9 Result: transverse emittance
Difference between n = 1,2 and n = 3 caused by larger solenoid distance 06/02/2005 D. Lipka, BESSY

10 Result: RF focusing of 3 ½ cell gun
beam size transverse emittance with RF focusing decrease of transverse emittance 06/02/2005 D. Lipka, BESSY

11 Summary developed tool to minimize transverse emittance with Astra and ROOT investigated n ½ superconducting cell guns (n = 1, 2, 3) without RF focusing with 8 parameters solenoid has certain distance to cathode to keep superconductivity n = 3 gives larger emittance with RF focusing transverse emittance decreased 06/02/2005 D. Lipka, BESSY

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