MC3 - Novel Particle Sources and Acceleration Techniques

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Presentation transcript:

MC3 - Novel Particle Sources and Acceleration Techniques Proposed session I (Mon): chair: P. Muggli (MPP) ID: 1419 Beam Dynamics in Structure-Based Beam-Driven Accelerators - Stanislav Baturin (Chicago) ID: 1226 Experiments with Metamaterial-Based Metallic Accelerating Structures - Xueying Lu (SLAC) ID: 2130 Conceptual Design of a Compact 500 MeV Short-Pulse Two-Beam Acceleration Demonstrator at Argonne Wakefield Accelerator (Jiahang Shao--ANL) ID: 1951 High Brightness CW Electron Beams From SC RF Photoinjector (Irina Petrushina--SUNY) ID: 2146 Magnetized Electron Source for JLEIC Electron Cooler (Riad Suleiman--JLAB) ID: 2116 Measuring the Mean Transverse Energy of Pump-Probe Photoemitted Electrons (Christopher Pierce--Cornell)

MC3 - Novel Particle Sources and Acceleration Techniques Proposed session II (Wed): chair: C. Schroeder (LBNL) ID: 1224 Awake, Proton Bunch Self-Modulation and Electron Acceleration - Spencer Gessner (CERN) ID: 1184 Petawatt Laser Guiding and Electron Beam Acceleration to 8 GeV in a Laser-Heated Capillary Discharge Waveguide - Anthony Gonsalves (LBNL) ID: 2049 Tolerances for Plasma Wakefield Acceleration Drivers (Glen White--SLAC) ID: 2145 Beam Induced Ionization Injection of Shaped Electron Bunches (Navid Vafaei-Najafabadi--SUNY) ID: 2086 Diamond Field Emitter Array Cathode Experimental Tests in RF Gun (Kimberley Nichols--LANL) ID: 1801 A High-Precision Emission (HiPE) Computational Model for Ultracold Electron Sources (Alister Tencate--NIU)

MC3 - Novel Particle Sources and Acceleration Techniques MC3 session statistics: Demographics: 3/12 Female speakers 3/12 Student speakers Institutes: SLAC = 2 SUNY = 2 Cornell = 1 Chicago = 1 NIU = 1 LANL = 1 JLAB = 1 ANL = 1 LBNL = 1 CERN = 1

MC3 - Novel Particle Sources and Acceleration Techniques MC3 contributed oral backups: ID: 2063 Alternating Planar Structure to Maximize Effective Gradient of Structure Wakefield Acceleration (Gwanghui Ha — ANL) ID: 1966 Laser-Ionized Thin Plasma Lenses (Christopher Doss — University of Colorado, Boulder)