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ICAR:U of C Activities Kwang-Je Kim September 3, 2003.

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Presentation on theme: "ICAR:U of C Activities Kwang-Je Kim September 3, 2003."— Presentation transcript:

1 ICAR:U of C Activities Kwang-Je Kim September 3, 2003

2 U of C: KJK Part A: Ionization cooling theory –K.-J. Kim and C.-x. Wang (ANL) Part. B: Smith-Purcell Laboratory –O. Kapp, A. Crewe,Y.-e Sun (student),Yau Wah Part C: Graduate Physics Course “ Accelerator Physics and Technologies for Linear Colliders” –Kwang-Je Kim Part D: Participation to flat beam generation experiment at FNPL –Y.-e Sun (student)

3 Part A: Ionization Cooling Theory Theoretical effort by K.-J. Kim and C.-x. Wang A comprehensive linear theory for ionization cooling taking into account –Transport in cooling lattice (Hamiltonian) –Dissipation and fluctuation in absorbers –Emittance exchange via dispersion and wedge absorbers –Beam angular momentum Moments expressed in terms of five invariant emittances

4 Emittance Exchange

5 Equation of Motion Phase space vector

6 Hamiltonian of the Focusing System solenoid + dipole + quadrupole + RF + absorber dipole quadrupoler.f. solenoid,  Lab frame  Rotating frame,,,

7 Emittance Evolution Near Equilibrium Parametrized by Five Invarients Guidance for developing cooling channel with emittance-exchange

8 Further Theoretical Topics Recursive evaluation of beam transport lattice consisting of extended elements ( such as solenoids used in ionization cooling channels) Rigorous treatment of magnetic field expansion for curved reference orbits…Provided bench- marking of ICOOL Extensive Publications including two PRLs

9 Selected papers on related developments C.-x. Wang and K.-J. Kim, COOL03, NIM A (2003) Beam envelope theory of ionization cooling C.-x. Wang and K.-J. Kim, PRL 88(18) 184801 (2002) Linear Theory of Ionization Cooling in 6D Phase Space C.-x. Wang and K.-J. Kim, NIM A503 401 (2001) Linear theory of transverse and longitudinal cooling in a quad. channel C.-x. Wang and K.-J. Kim, PRE 63 056502 (2001) Recursive solution for beam dynamics of periodic focusing channels C.-x. Wang, NIM A503 409 (2001) Dispersions in a bent-solenoid channel C.-x. Wang and L.C. Teng, PAC’01(2001) Magnetic Field Expansion in a Bent-Solenoid Channel K.-J. Kim and C.-x. Wang, NIM A472 561(2001) Progress in the Linear Beam Dynamics Study of Ionization Cooling Channel K.-J. Kim and C.-x. Wang, PRL 85(4) 760 (2000) Formulas for Transverse Ionization Cooling in Solenoidal Channels

10 Part B: Smith-Purcell Laboratory An electron microscope–based Smith-Purcell generator for a compact far IR source Retrofitted the sample chamber of a Cambridge S-200 scanning electron microscope with a grating Radiation transported via a polyethyene window to a bolometer Observed spontaneous Smith-Purcell radiation after carefully eliminating the effects due to blackbody radiation. (c.f., Dartmouth claim on high-gain behavior) We are evaluating: –Several options for electron sources (heated tungsten tip, Lab6, Thermionic field emission) –Electron beam recovery system Preparing proposals for other funding agencies

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13 Part C: A Graduate Physics Course “ Physics and Technologies for Linear Colliders Physics 575 during winter 2002 Lectures by experts in the field –S. Holmes, K.J. Kim, T. Raubenheimer, J. Rosenzweig, L. Emery, J. Wang, L. Lilje, F. Zimmermann, V. Shiltsev, W. Gai Lecture notes in the course web page –http://hep.uchicago.edu/~kwangje/phy575.html

14 Part D: Flat Beam Generation A novel beam manipulation technique proposed by Y.Derbenev A flat beam ratio (FBR) of 50 has been achieved at FNPL ( FNAL-NIU Photocathode Laboratory). Yin-e Sun is investigating effects reducing FBR –Energy spread, space-charge effects, breaking of cylindrical symmetry To improve the flat beam ratio to >100.

15 Schematic rendition of the layout at Fermilab for flat beam experiment x = A cos  z y = A sin  z A cos  z A sin (  z+  /2) flat beam vortex beam

16 FermiLab/NICADD PhotoInjector Layout taken from PAC01 paper of D. Edwards etc.

17 Flat electron beam profile at 9.6m from the cathode (XL6) and horizontal and vertical beamlets used for emittance measurements downstream at XL7 and XL8. The transverse emittance ratio is about 41 in the example shown here.

18 Major Budget Items Part A… Fund transfer to ANL to support C.-x. Wang Part B …Partial (40-50%) salary support for O. Kapp, equipments and supplies, technician charges Part C…Travel support for lecturers Part D…Stipend for a graduate student Domestic and international travels

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