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Publication Citation: Characterization of the Coherent Microwave Emission From the Surf II Synchrotron Storage Ring

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Author(s): Gerald T. Fraser; Angela R. Hight Walker; Thomas B. Lucatorto; Uwe Arp; K. K. Lehmann;
Title: Characterization of the Coherent Microwave Emission From the Surf II Synchrotron Storage Ring
Published: July 01, 1997
Abstract: The temporal profile and frequency spectrum of the microwave emission from the Synchrotron Ultraviolet Radiation Facility [SURF II] electron storage ring at the National Institute of Standards and Technology have been studied to access the utility of SURF II for long wavelength spectroscopic applications. SURF II is a 300 MeV storage ring with two electron bunches of approximately 1 ns [0.3 m] length. The microwave emission between 8 GHz and 18 GHz is dominated by intense ~ 0.2 ms bursts of radiation, which are random in time at high electron beam currents and nearly periodic in time [t ~ 10 ms] at low beam currents. The radiation is predominantly polarized in the plane of the ring, consistent with synchrotron emission. The peak intensity of the radiation is more than two orders of magnitude larger than that calculated for incoherent synchrotron emission. Spectrally resolved measurements using a 2 MHz resolution [FWHM] microwave heterodyne receiver reveal that the radiation bursts consist of intense peaks at frequencies corresponding to even harmonics of the orbital frequency of an electron bunch. The odd harmonics are less intense by more than an order of magnitude. The origin of these effects is attributed to oscillations of the electron bunch lengths due to electrical coupling of the two electron bunches. During the minimum of this oscillation the bunch lengths is comparable to the microwave wavelength, giving rise to short bursts of coherent emission. The effect of bunch length compression is significantly reduced as the frequency increases toward 18 GHz, and is expected to have a negligible effect on the radiation properties of the far-infrared emission spectrum of SURF II.
Conference: AIP Conference Proceedings: US National Conference on synchrotron Radiation Instrumentation
Proceedings: AIP Conference Proceedings
Volume: 417
Issue: 1
Pages: 48 pp.
Location: Ithaca, NY
Dates: June 17-20, 1997
Keywords: coherence;electron storage ring;microwave radiation;SURF II;synchrotron oscillations;synchrotron radiation
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