1st Advanced Superconducting Test Accelerator (ASTA) User's Meeting and PAC Meeting
→
US/Central
Fermilab, Wilson Hall, Curia II
Fermilab, Wilson Hall, Curia II
Batavia, IL
John Bellendir
(Fermilab CD\CSS\CSI), Mark Kaletka
(FNAL)
Description
This 1.5-day meeting will include a description of ASTA capabilities,
facilities and status followed by a discussion of proposed experiments
along the four main research thrusts at ASTA:
- Accelerator R&D for Particle Physics at the Intensity and Energy Frontiers,
- Accelerator R&D for Future SRF Accelerators,
- Accelerator R&D for Novel Radiation Sources,
- Accelerator R&D for Stewardship and Applications.
Halo suppresion by nonlinear decoherence: Stephen WebbCuria II (2nd floor, west side) (Fermilab, Wilson Hall)
Curia II (2nd floor, west side)
Fermilab, Wilson Hall
slides
14:05
→
14:15
New design principles for beam halo suppression in hadron accelerators at the intensity frontier -- proposed use of the Synergia framework to develop an experimental plan for the IOTA ring: David Bruhwiler
slides
14:15
→
14:30
On two proposed IOTA experiments: Integrable optics with space charge and wave-function measurements: Slava Danilov
slides
14:30
→
14:45
Can you hear the shape of a drum?: Bela Erdelyi
slides
14:45
→
15:00
Nonlinear Integrable Optics at the University of Maryland: Kiersten Ruisard
slides
15:00
→
15:15
IOTA: Moses Chung
slides
15:15
→
15:30
Discussion
15:30
→
16:00
Break
30m
16:00
→
17:00
Seminar: Eric Colby
slides
17:00
→
17:20
Demonstration of high-power high-gradient SRF caryomodule w intense beams: Nikolay Solyak
slides
17:20
→
17:35
Ultra-Stable Operation of SRF Linacs with Beam-Based Feedback: G. Huang
slides
17:35
→
17:50
Interest from CSU (AI-based control of SCRF linacs): Auralee Morin
Tagged Photon Beam for Detector R&D: David Christian
slides
08:45
→
09:00
Electron Beam Shaping and High Gradient, High Transformer Ratio Acceleration in a Dielectric Tube: Evgenya SimakovCuria II (2nd floor, west side) (Fermilab, Wilson Hall)
Curia II (2nd floor, west side)
Fermilab, Wilson Hall
slides
09:00
→
09:15
Flat-Beam-Driven Dielectric-Wakefield Acceleration in slab Structures: Francois LemeryCuria II (2nd floor, west side) (Fermilab, Wilson Hall)
Curia II (2nd floor, west side)
Fermilab, Wilson Hall
slides
09:15
→
09:30
Nano-Crystal Channeling Acceleration Experiment: Young Min ShinCuria II (2nd floor, west side) (Fermilab, Wilson Hall)
Curia II (2nd floor, west side)
Fermilab, Wilson Hall
slides
09:30
→
09:45
Miniaturized Magnetic Undulator for X-ray Generation: Alexandra GarraudCuria II (2nd floor, west side) (Fermilab, Wilson Hall)
Curia II (2nd floor, west side)
Fermilab, Wilson Hall
slides
09:45
→
10:00
Inverse Compton Scattering: Alex MurokhCuria II (2nd floor, west side) (Fermilab, Wilson Hall)
Curia II (2nd floor, west side)
Fermilab, Wilson Hall
slides
10:00
→
10:15
Application of Inverse Compton Scattering: C. UgaldeCuria II (2nd floor, west side) (Fermilab, Wilson Hall)
Curia II (2nd floor, west side)
Fermilab, Wilson Hall
slides
10:15
→
10:30
Production of Narrow Band gamma-rays: Chuck AnkenbrandtCuria II (2nd floor, west side) (Fermilab, Wilson Hall)
Curia II (2nd floor, west side)
Fermilab, Wilson Hall
slides
10:30
→
10:45
Break
15m
10:45
→
11:00
Feasability of an XUV FEL Oscillator: Alex Lumpkin
slides
11:00
→
11:15
Laser-induced Microbunching Studies: Alex Lumpkin
slides
11:15
→
11:30
Beam Dechirper using Corrugated Pipe: Marco Venturini
slides
11:30
→
11:45
Beam dechirper (silencer) using dielectric- waveguides: Sergey Antipov
slides
11:45
→
12:00
Beam -beam kicker for an electron-ion collider: Y. ZhangCuria II (2nd floor, west side) (Fermilab, Wilson Hall)
Curia II (2nd floor, west side)
Fermilab, Wilson Hall
slides
12:00
→
12:15
Demonstration Technique to Generate & Manipulate Ultra-low Emittance for Future Hard X-ray FELs: John Lewellen
slides
12:15
→
12:30
DISCUSSIONCuria II (2nd floor, west side) (Fermilab, Wilson Hall)
Curia II (2nd floor, west side)
Fermilab, Wilson Hall
Batavia, IL
13:30
→
14:30
ASTA Facility Tour: Trasnportation provided - Pick up in front of Wilson Hall