Phys. Rev. Lett. 94, 154801 (2005) [4 pages]High Energy Gain of Trapped Electrons in a Tapered, Diffraction-Dominated Inverse-Free-Electron Laser
P. Musumeci1, S. Ya. Tochitsky2, S. Boucher1, C. E. Clayton2, A. Doyuran1, R. J. England1, C. Joshi2, C. Pellegrini1, J. E. Ralph2, J. B. Rosenzweig1, C. Sung2, S. Tolmachev3, G. Travish1, A. A. Varfolomeev3, A. A. Varfolomeev, Jr.3, T. Yarovoi3, and R. B. Yoder1 Received 18 October 2004; published 20 April 2005 Energy gain of trapped electrons in excess of 20 MeV has been demonstrated in an inverse-free-electron-laser (IFEL) accelerator experiment. A 14.5 MeV electron beam is copropagated with a 400 GW CO2 laser beam in a 50 cm long undulator strongly tapered in period and field amplitude. The Rayleigh range of the laser, ∼1.8 cm, is much shorter than the undulator length yielding a diffraction-dominated interaction. Experimental results on the dependence of the acceleration on injection energy, laser focus position, and laser power are discussed. Simulations, in good agreement with the experimental data, show that most of the energy gain occurs in the first half of the undulator at a gradient of 70 MeV/m and that the structure in the measured energy spectrum arises because of higher harmonic IFEL interaction in the second half of the undulator. ©2005 The American Physical Society
URL: http://link.aps.org/doi/10.1103/PhysRevLett.94.154801 [ Abstract | Previous article | Next article | Issue 15 ] |
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