SBIR-STTR Award

The DOE-sponsored U.S. High Gradient Collaboration has determined that U.S. efforts should attempt to achieve the highest practical accelerator gradient in a working frequency range of 11.4 to 30 GHz. Although recent CERN studies suggest that 20 GHz is a near optimum value, facilities for conducting high gradient accelerator research are available only at 11.4 GHz in the U.S. (SLAC) and at 30 GHz in Switzerland (CERN). This project will develop a deflection modulation, phase stable power amplifier (Choppertron) to enable the research and testing of high gradient accelerators in the frequency range of 17 to 23 GHz. In Phase I, two 30pps, 800 nanosecond Choppertrons will be designed: (1) a 50 MW Choppertron based on the possible future availability of a 220 MW high-voltage electron-beam source, and (2) a 15 MW Choppertron, based on the presently-available, 50 MW, electron-beam test stand. By using existing diagnostic and RF drive equipment, costs will reduced, and operating frequency choices of 17.136, 19.0 and 22.848 GHz will be provided. During Phase II, the amplifier system will be fabricated and tested at high power, in order to evaluate high-phase stability and a klystron-like saturated drive characteristic.

Commercial Applications and Other Benefits as described by the awardee:
The Choppertron should be readily reconfigured to provide phase-stable output power at integer values of the drive frequency (e.g., 11.424, 17.136 and 22.848 GHz) when using a 5.712 GHz drive. Commercial applications that require a range of frequency choices would benefit from this technology

A critical issue for multi-TEV linear colliders is the inability to demonstrate acceptable microwave performance with accelerating gradients greater than 80 MV/m at radio frequency (RF) pulse widths of 100 to 200 nanoseconds. This project will design, fabricate and test a high efficiency, deflection modulation power amplifier (Choppertron), and construct a unique test facility that will permit high power tests to be performed on high gradient accelerator structures. Phase I investigated a novel means of combining a charge enhancement technique with a spatially modulated, high-power (500-550 kV) electron beam; performed detailed microwave and beam optics analyses; and established design parameters for a high efficiency 20 MW 17 GHz Choppertron. In Phase II, final engineering design and manufacturing documents will be developed for the 20 MW Choppertron beam centerline components, the solenoid assembly, the evacuated rectangular waveguide transmission and diagnostic components, and the components required for interfacing the existing subsystems with the upgraded test facility. After fabrication and installation of the equipment, the focused and deflected beam characteristics will be measured, and the high power performance of the 17 GHz Choppertron will be evaluated.

Commercial Applications and Other Benefits as described by the awardee:
A new, high efficiency, short wavelength microwave source should find use in high gradient accelerator research and for high-peak-power commercial applications