Design and operation of a superconducting quarter-wave electron gun

• Main Authors: J. R. Harris, K. L. Ferguson, J. W. Lewellen, S. P. Niles, B. Rusnak, R. L. Swent, W. B. Colson, T. I. Smith, C. H. Boulware, T. L. Grimm, P. R. Cunningham, M. S. Curtin, D. C. Miccolis, D. J. Sox, W. S. Graves
• Format: Article
• Language: English
• Published: American Physical Society 2011-05-01
• Series: Physical Review Special Topics. Accelerators and Beams
• Online Access: http://doi.org/10.1103/PhysRevSTAB.14.053501
• ISSN: 1098-4402

Superconducting radio-frequency electron guns are viewed by many as the preferred technology for generating the high-quality, high-current beams needed for future high power free-electron lasers and energy recovery linacs. All previous guns of this type have employed elliptical cavities, but there are potential advantages associated with other geometries. Here we describe the design, commissioning, and initial results from a superconducting radio-frequency electron gun employing a quarter-wave resonator configuration, the first such device to be built and tested. In initial operation, the gun has generated beams with bunch charge in excess of 78 pC, energy of 469 keV, and normalized rms emittances of about 4.9  μm. Currently, bunch charge is limited by the available drive laser energy, and beam energy is limited by x-ray production and the available rf power. No fundamental limits on beam charge or energy have been encountered, and no high-field quenching events have been observed.