Status of the Rocketdyne/Stanford free-electron laser experiment

ANUP BHOWMIK; WAYNE A. McMULLIN; STEPHEN V. BENSON; JOHN M. J. MADEY; BRUCE A. RICHMAN; LOUIS VINTRO

International Quantum Electronics Conference
OSA Technical Digest (Optica Publishing Group, 1986),
paper WGG25

Status of the Rocketdyne/Stanford free-electron laser experiment

ANUP BHOWMIK, WAYNE A. McMULLIN, STEPHEN V. BENSON, JOHN M. J. MADEY, BRUCE A. RICHMAN, and LOUIS VINTRO

International Quantum Electronics Conference 1986

San Francisco, California United States
9–13 June 1986
ISBN: 0-936659-11-4

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Poster Session: 2 (WGG)

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A. BHOWMIK, W. A. McMULLIN, S. V. BENSON, J. M. J. MADEY, B. A. RICHMAN, and L. VINTRO, "Status of the Rocketdyne/Stanford free-electron laser experiment," in International Quantum Electronics Conference, M. Richardson, C. Tang, D. Grischkowsky, and T. Hansch, eds., OSA Technical Digest (Optica Publishing Group, 1986), paper WGG25.

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Abstract

A variable gap, samarium cobalt wiggler and its support structure are being constructed by Rocket- dyne along with the optical resonator and associated electron-beam transport optics for installation in the Stanford X-Ray Laboratory. It will be operated in conjunction with the modified Mark III accelerator capable of generating a 45-MeV electron beam at a peak current of 25 A.¹ The period of the 2-m long plane-polarized wiggler is 2.5 cm with an anticipated peak on-axis field of 3.7 kG. The device is expected to operate in the 2.0-3.0-μm wavelength range through gap tuning.

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