We report experiments at Jefferson National Accelerator Facility (Jlab) and computer simulations performed at the Naval Postgraduate School (NPS) designed to probe the small Rayleigh length regime. We compare the gain, power, and sensitivity to mirror and electron beam misalignments as a function of decreasing Rayleigh length. The agreement is quite good, with experiments and simulations showing comparable trends as the Rayleigh length is decreased. In particular, we find that the gain and power do not decrease substantially at short Rayleigh length, contrary to a common Gaussian-mode filling factor argument. Within currently achievable alignment tolerances, the gain and power are still acceptable for FEL operation.

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rayleigh length gain power operation gaussianmode filling factor mirror and electron beam misalignments

W. B. Colson,J. Blau,P. P. Crooker,M. Shinn,S. Benson,P. Evtushenko,D. Burggraff,J. Sans Aguilar,G. Neil,.Short Rayleigh length free electron laser: Experiments and simulations. 11 (9),.

W. B. Colson,J. Blau,P. P. Crooker,M. Shinn,S. Benson,P. Evtushenko,D. Burggraff,J. Sans Aguilar,G. Neil,"Short Rayleigh length free electron laser: Experiments and simulations" 11

W. B. Colson,J. Blau,P. P. Crooker,M. Shinn,S. Benson,P. Evtushenko,D. Burggraff,J. Sans Aguilar,G. Neil,"Short Rayleigh length free electron laser: Experiments and simulations"