Design, construction, and test of compact, distributed-charge, X-band accelerator systems that enable image-guided, VHEE FLASH radiotherapy

Design, construction, and test of compact, distributed-charge, X-band accelerator systems that enable image-guided, VHEE FLASH radiotherapy

The design and optimization of laser-Compton x-ray systems based on compact distributed charge accelerator structures can enable micron-scale imaging of disease and the concomitant production of beams of Very High Energy Electrons (VHEEs) capable of producing FLASH-relevant dose rates (∼ 10 Gy in le...

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Bibliographic Details
Main Authors: Christopher P. J. Barty, J. Martin Algots, Alexander J. Amador, James C. R. Barty, Shawn M. Betts, Marcelo A. Castañeda, Matthew M. Chu, Michael E. Daley, Ricardo A. De Luna Lopez, Derek A. Diviak, Haytham H. Effarah, Roberto Feliciano, Adan Garcia, Keith J. Grabiel, Alex S. Griffin, Frederic V. Hartemann, Leslie Heid, Yoonwoo Hwang, Gennady Imeshev, Michael Jentschel, Christopher A. Johnson, Kenneth W. Kinosian, Agnese Lagzda, Russell J. Lochrie, Michael W. May, Everardo Molina, Christopher L. Nagel, Henry J. Nagel, Kyle R. Peirce, Zachary R. Peirce, Mauricio E. Quiñonez, Ferenc Raksi, Kelanu Ranganath, Trevor Reutershan, Jimmie Salazar, Mitchell E. Schneider, Michael W. L. Seggebruch, Joy Y. Yang, Nathan H. Yeung, Collette B. Zapata, Luis E. Zapata, Eric J. Zepeda, Jingyuan Zhang
Format: Article
Language:English
Published: Frontiers Media S.A. 2024-12-01
Series:Frontiers in Physics
Subjects:
lasers
x-rays
laser-Compton scattering
accelerators
X-band
flash
Online Access:https://www.frontiersin.org/articles/10.3389/fphy.2024.1472759/full
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https://www.frontiersin.org/articles/10.3389/fphy.2024.1472759/full

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