Christopher Tennant

Title: Christopher Tennant: Innovator in Synchrotron Radiation Control

Introduction

Christopher Tennant is a notable inventor based in Williamsburg, VA (US), recognized for his contributions to the field of synchrotron radiation control. With a total of 4 patents, Tennant has made significant advancements in methods and apparatuses that enhance the quality and stability of high brightness electron beams.

Latest Patents

Tennant's latest patents include a groundbreaking method and apparatus for recirculation with control of synchrotron radiation. This invention addresses beam quality degradation from incoherent synchrotron radiation (ISR) and coherent synchrotron radiation (CSR), stabilizing microbunching instability (μBI) in high brightness electron beams. The method involves a super-periodic second order achromat line, where each super period is individually linearly achromatic and isochronous. It sets individual superperiod tunes to rational fractions of integers, minimizes bend plane beam envelope values in dipoles, and creates dispersion nodes to mitigate CSR effects.

Another significant patent focuses on controlling coherent synchrotron radiation effects during recirculation with bunch compression. This modulated-bending recirculating system redistributes bending along the beamline to avoid CSR-driven breakdown in emittance compensation. The system enhances CSR impact in initial FODO cells while reducing it in final cells, correcting chromatic aberrations, and compensating for lattice-induced curvature in the longitudinal phase space.

Career Highlights

Throughout his career, Tennant has worked with esteemed organizations such as Jefferson Science Associates and Los Alamos National Security. His work has been pivotal in advancing technologies related to synchrotron radiation and electron beam stability.

Collaborations

Tennant has collaborated with notable colleagues, including David R. Douglas and Stephen V. Benson, contributing to the development of innovative solutions in his field.

Conclusion

Christopher Tennant's innovative work in synchrotron radiation control has led to significant advancements in the stability and quality of electron beams. His contributions continue to influence the field and inspire future innovations.