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Cavity Optimization for Compact Accelerator- based Free-electron Maser Dan Verigin TPU In collaboration with A. Aryshev, S. Araki, M. Fukuda, N. Terunuma,

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Presentation on theme: "Cavity Optimization for Compact Accelerator- based Free-electron Maser Dan Verigin TPU In collaboration with A. Aryshev, S. Araki, M. Fukuda, N. Terunuma,"— Presentation transcript:

1 Cavity Optimization for Compact Accelerator- based Free-electron Maser Dan Verigin TPU In collaboration with A. Aryshev, S. Araki, M. Fukuda, N. Terunuma, J. Urakawa KEK: High Energy Accelerator Research Organization P. Karataev John Adams Institute at Royal Holloway, University of London G. Naumenko, A. Potylitsyn, L. Sukhikh Tomsk Polytechnic University K. Sakaue Waseda University

2 Compact Accelerator-based Free- Electron Maser A.P. Potylitsyn, Phys. Rev. E 60 (1999) 2272.

3 LUCX, compact linear accelerator Energy 30 MeV (  = 62) Intensity 1 nC/bunch Num. of Bunches 100 Bunch spacing 2.8 ns Bunch length <10 ps Repetition rate, nominal 3.13 Hz Emittance (round) 5 π mmmrad σ x σ y in SCDR chamber 200 μm, 200 μm S. Liu, M. Fukuda, S. Araki, N. Terunuma, J.Urakawa, K. Hirano, N. Sasao, Nuclear Instruments and Methods A 584 (2008) 1-8.

4 Diffraction Radiation Diffraction radiation (DR) appears when a charged particle moves in the vicinity of a medium I DR ~ N e

5 Coherent Diffraction Radiation CDR is generated by sequence of charged bunches I CDR ~ N e 2

6 CDR on LUCX 2 6-way crosses 2 4D vacuum manipulation systems 2 aluminum mirrors

7 CDR on LUCX: Cavity length scan openedclosed

8 Transmission calculation M.I. Markovic, A.D. Rakic. Determination of optical properties of aluminium including electron reradiation in the Lorentz- Drude model. Opt.and Laser Tech., v. 22, No. 6, 394-398, 1990. R.T. Kinasewitz, B.Senitzky. Investigation of complex permittivity of n-type silicon at millimeter wavelengths. J. Appl. Phys., v. 54, No. 6, 3394-3398, 1983. Al Si

9 Mirror test bench Material Transmission coefficient ExperimentTheory Aluminized mirror00 Doped silicon0.42 Normal silicon0.450.42

10 New mirror design Aluminum, nm Silicon, mkm Transmission coefficient, % 21006.5 1505.3 3004.0 31003.4 1502.7 3002.1 4502.7 1002.0 1501.6 SiAl Mirrror diameter = 100 mm Thickness of Si substrate should be more than 100 mkm for durability

11 Stimulation E SCDR = a E Cav – addition to electric field by stimulation (depends on electric field stored in cavity) E DR – electric field generated by single bunch d – loss in resonator E tot,2 = d E DR + E DR + ad E DR = E DR (1 + d (1+a)) = E DR (1+b) – electric field in resonator after second bunch E tot,i = E DR (1-b i )/(1-b) – electric field in resonator after i-th bunch Chitrlada Settakorn, Michael Hernandez, and Helmut Wiedemann Stanford Linear Accelerator Center, Stanford University, Stanford, CA 94309, SLAC-PUB-7587 August 1997

12 Cavity decay E tot,i = E DR (1-b N )/(1-b) d i-N – where N is number of bunches in train (i>N) A. Aryshev, et. al., IPAC’10, June 2008, Kyoto, Japan, MOPEA053

13 Thank you for attention

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