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  1. J. S. Fender, Ed., Synthetic Aperture Systems, Proc. Soc. Photo-Opt. Intsrum. Eng.440 (1983).
  2. For a recent compilation of reports on various aspects of free-electron lasers see IEEE J. Quantum Electron. QE-23 (1987).
  3. W. Chow, Q. Appert, A. Saxman, B. McVey, S. Bender, “Frequency Locking in Coupled Free Electron Lasers,” presented at AIAA Nineteenth Fluid Dynamics Plasma Dynamics and Lasers Conference, Honolulu (June 1987).

1987 (1)

For a recent compilation of reports on various aspects of free-electron lasers see IEEE J. Quantum Electron. QE-23 (1987).

Appert, Q.

W. Chow, Q. Appert, A. Saxman, B. McVey, S. Bender, “Frequency Locking in Coupled Free Electron Lasers,” presented at AIAA Nineteenth Fluid Dynamics Plasma Dynamics and Lasers Conference, Honolulu (June 1987).

Bender, S.

W. Chow, Q. Appert, A. Saxman, B. McVey, S. Bender, “Frequency Locking in Coupled Free Electron Lasers,” presented at AIAA Nineteenth Fluid Dynamics Plasma Dynamics and Lasers Conference, Honolulu (June 1987).

Chow, W.

W. Chow, Q. Appert, A. Saxman, B. McVey, S. Bender, “Frequency Locking in Coupled Free Electron Lasers,” presented at AIAA Nineteenth Fluid Dynamics Plasma Dynamics and Lasers Conference, Honolulu (June 1987).

McVey, B.

W. Chow, Q. Appert, A. Saxman, B. McVey, S. Bender, “Frequency Locking in Coupled Free Electron Lasers,” presented at AIAA Nineteenth Fluid Dynamics Plasma Dynamics and Lasers Conference, Honolulu (June 1987).

Saxman, A.

W. Chow, Q. Appert, A. Saxman, B. McVey, S. Bender, “Frequency Locking in Coupled Free Electron Lasers,” presented at AIAA Nineteenth Fluid Dynamics Plasma Dynamics and Lasers Conference, Honolulu (June 1987).

IEEE J. Quantum Electron. (1)

For a recent compilation of reports on various aspects of free-electron lasers see IEEE J. Quantum Electron. QE-23 (1987).

Other (2)

W. Chow, Q. Appert, A. Saxman, B. McVey, S. Bender, “Frequency Locking in Coupled Free Electron Lasers,” presented at AIAA Nineteenth Fluid Dynamics Plasma Dynamics and Lasers Conference, Honolulu (June 1987).

J. S. Fender, Ed., Synthetic Aperture Systems, Proc. Soc. Photo-Opt. Intsrum. Eng.440 (1983).

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Figures (4)

Fig. 1
Fig. 1

Pulse-to-pulse wavefront variation in a FEL. The dimensions x and y refer to two orthogonal directions in the plane of the optical beam cross section. The different curves correspond to the different passes made in a FEL resonator.

Fig. 2
Fig. 2

(a) Scheme for a FEL phased optical array; (b) an amplifier module in the FEL phase array shown in (a). For graphic simplicity, we have represented the mirrors by lenses.

Fig. 3
Fig. 3

(a) Phase and (b) gain fluctuations due to electron bunch energy spread.

Fig. 4
Fig. 4

FEL phase array with circulating optical pulses. The smaller FEL ring oscillator is for mode control and laser start-up.

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