Advancing Electron Beam Technology for Accelerator Applications
Focusing on electron beam generation, manipulation, and acceleration, this initiative aims to drive advancements in beam-driven wakefield acceleration and related fields. The program at AWA explores high-gradient acceleration for future colliders, collaborating on research and development projects with a special emphasis on structure and beamline capabilities. With a unique set of in-house resources and ongoing core R&D, the endeavor seeks to push the boundaries of accelerator technology and foster collaborations for future innovations.
- Electron Beam
- Accelerator Technology
- Beam-Driven Acceleration
- Research and Development
- Collaboration
Download Presentation
Please find below an Image/Link to download the presentation.
The content on the website is provided AS IS for your information and personal use only. It may not be sold, licensed, or shared on other websites without obtaining consent from the author. Download presentation by click this link. If you encounter any issues during the download, it is possible that the publisher has removed the file from their server.
E N D
Presentation Transcript
MISSION STATEMENT: Developing the science and technology of electron beam generation, manipulation and acceleration for beam-driven wakefield acceleration and other applications. AWA OVERVIEW - ADVANCED ACCELERATOR CONCEPTS (AAC) drhgfdjhngngfmhgmghmghjmghfmf JIAHANG SHAO Postdoctoral Appointee August 21-23, 2019 AWANOW Workshop Argonne, IL
AAC R&D AT AWA High gradient and high efficiency acceleration for future colliders and other applications TBA SWFA R&D PWFA R&D Structure High gradient physics CWA Collaborator s R&D AWA s in-house program AWA s unique capabilities
AWA CAPABILITIES FOR AAC TOPICS STRUCTURE R&D BEAMLINE
AWA CAPABILITIES STRUCTURE R&D Fabrication* Mechanical design Physics design * On-site with APS machining shop or off-site Bench test High power test Data analysis J. Shao, et al, arXiv 1907.01069 (2019)
AWA CAPABILITIES BEAMLINE Beamline Hardware - Drive beamline 65 MeV, bunch train, up to 600 nC - Witness beamline 15 MeV, single bunch, up to 60 nC - ACT beamline/High power test-stand - DEEX - Large chambers to host structure - Be window for moderate vacuum - Several DUT test area available - Measurement of charge, power, energy, beam shape, emittance, bunch length* - Shielding room to improve signal-to-noise ratio * After DEEX installation and commissioning Single-shot wakefield mapping Q. Gao, et al., PRAB 21, 062801 (2019)
AWA IN-HOUSE PROGRAM AWA s core R&D: recent AWA s core R&D: on-going/future Seeking collaboration
TBA CWA Structure HG physics PWFA TWO-BEAM ACCELERATION N. Neveu, et al, PRAB 22, 054602 (2019) Staging - Simplified staging demonstrated - 2 stages, 1 pair of structures per stage - Main beam energy gain of 5 MeV - TBA beamline optimization Drive beam power source Main beam acceleration - X-band metallic: 300 MW - X-band dielectric: 200 MW - K-band dielectric: 55 MW - X-band metallic: 150 MV/m - K-band dielectric: 28 MV/m C. Jing, et al, NIMA 898, 72-76 (2018) J. Shao, et al, in Proceedings of IPAC2017 J. Shao, et al, arXiv 1907.01069 (2019)
TBA CWA Structure HG physics PWFA TWO-BEAM ACCELERATION - 2 stages, 2 pairs of power extractor/accelerator per stage - Drive beam distribution with kicker/septum Staging Drive beam power source Main beam acceleration - 2 of 8-bunch trains, 40 nC/bunch - K-band structure: 1.25 GW - K-band dielectric disk: 250 MV/m - Main beam energy gain of 500 MeV - Main beam shaping to improve efficiency C. Jing, et al, in Proceedings of AAC2018
TBA CWA Structure HG physics PWFA COLLINEAR WAKEFIELD ACCELERATION = 4.9 1.5 High transformer ratio - Beam shaping by EEX - HTR ~5 achieved in 100 GHz structure Q. Gao, et al, PRL 120, 114801 (2018) High power radiation High gradient acceleration - W-band metallic structure - 5 MW, 85 MeV/m D. Wang, et al, PRL 116, 054801 (2016)
TBA CWA Structure HG physics PWFA COLLINEAR WAKEFIELD ACCELERATION *Vertical is arbitrarily scaled unit not MV/m 4.871 High transformer ratio - Beam shaping by DEEX - HTR ~10 -0.484 20 ps R=10.06 G. Ha, et al, in Proceedings of AAC2018 High power radiation High gradient acceleration - THz generation - GV/m gradient
TBA CWA Structure HG physics PWFA STRUCTURE DEVELOPMENT High power extractor - X-band metallic: 500 MW - K-band dielectric: 1 GW - Novel structures J. Shao, et al, arXiv 1907.01069 (2019) M. Peng, et al, in Proceedings of IPAC2019 High gradient accelerator HOM damping - X-band DDA: 100 MV/m - K-band DDA: 250 MV/m - THz DLA: GV/m - Novel structures Beam loading compensation rf components
TBA CWA Structure HG physics PWFA HIGH GRADIENT PHYSICS Field emission Field emission - Stored energy dependence - In-situ field emission imaging - In-situ BD location observation J. Shao, et al, PRL 115, 264802 (2015) J. Shao, et al, PRL 117, 084801 (2016) rf breakdown - X-band metallic: >250 MV/m - X-band dielectric: >100 MV/m M. Peng, Wed 18:00-18:20 Multipacting
TBA CWA Structure HG physics PWFA PLASMA WAKEFIELD ACCELERATION High transformer ratio - Beam shaping by EEX - HTR ~8 achieved R. Roussel, Thur 10:00-10:20 +2.5 = 7.8 1.7 R. Roussel, et al., in preparation
TBA CWA Structure HG physics PWFA PLASMA WAKEFIELD ACCELERATION High transformer ratio G. Andonian, Thur 09:40:10:00 - Three-year research with UCLA just funded!
ENABLED RESEARCH RADIATION GENERATION - Reversed-Cherenkov radiation from metamaterial structure - Transition edge-wave radiation in photonic topological crystals X. Lu, et al., PRL 122, 024801 (2019) R. Temkin, Wed 16:15-16:35 Y. Yu, et al., PRL 123, 057402 (2019)
ENABLED RESEARCH STUDY WITH MODERATE VACUUM - Photonic band-gap structure characterization - Capillary Trojan Horse acceleration G. Andonian, Wed 17:15-17:35 E. Simakov, et al., PRL 116, 064801 (2016) - 35 MV/m gradient J. Upadhyay, et al., in preparation
ENABLED RESEARCH FUNDAMENTAL FE/BD STUDY UNDER HIGH GRADIENT - Field emission/rf breakdown study using SS cathode BD observation FE observation Before After J. Shao, et al., in preparation
Previous | On-going & Future AAC R&D AT AWA *This is not an exhaustive list R&D by AWA R&D by collaborators R&D by AWA R&D by collaborators 1. TBA/staging with X-band all-metallic structures A. Kanareykin, Wed 14:15-14:35 1. CLIC chock-mode structure (CERN, THU) 1. W-band two halves structure (D. Wang, THU) S. Siy, Wed 14:55-15:15 1. Photonic band-gap structure (LANL) A. Zholents, Wed 14:35-15:00 2. TBA with K-band all- dielectric structures 2. Photonic topological insulator (Cornell) 2. Corrugated waveguide structure (ANL-APS) C. Jing, Wed 15:40-16:00 2. High transformer ratio with dielectric slab structure (Q. Gao, THU) 3. TBA with X-band high gradient all-dielectric structures 3. CLIC dielectric structures (CERN) 3. Capillary Trojan Horse (Radiobeam/UCLA) 3. Transformer ratio vs. gradient in slab structures CWA 4. Beam dynamics optimization for staging (N. Neveu, IIT) TBA 5. Study of Argonne Flexible Linear Collider R&D by AWA R&D by collaborators 6. 500 MeV high gradient high efficiency demonstrator 1. Dielectric-loaded structure S. Antipov, Wed 14:55-15:15 Y. Wei, Wed 17:40-18:00 1. Photonic band-gap structure (LANL) 2. Dielectric-disk structure 2. Metalmaterial structure (MIT) R&D by AWA R&D by collaborators 3. Metallic disk-loaded structure Structure 1. Field emission dependence on stored energy R. Temkin, Thur 09:20-09:40 1. Field emission vs. breakdown (SJTU) 4. Other novel structures 2. Field emission imaging 3. Multipacting suppression by magnetic field High gradient physics R&D by AWA R&D by collaborators 4. Short-pulse breakdown test (M. Peng, THU) 1. High transformer ratio demonstration (R. Roussel, UCLA) 1. Plasma lenses (UCLA) PWFA 5. GV/m breakdown test S. Shchelkunov, Wed 16:40-17:00
SUMMARY AWA is a flexible, unique, and state-of-the-art test-bed for AAC R&D AAC R&D at AWA is guided by the SWFA roadmap. Solid progress has been made recently and more exciting studies are upcoming (500 MeV demonstrator; GW power generation; ~10 TR; ~270 MV/m BD test) Collaborator program: strong support from the AWA group, mutual scientific benefits AWA is open for more collaborators! High gradient physics Structure TBA CWA PWFA