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PIs: Riad Suleiman and Matt Poelker

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1 PIs: Riad Suleiman and Matt Poelker
Generation and Characterization of Magnetized Bunched Electron Beam from DC Photogun for JLEIC Cooler PIs: Riad Suleiman and Matt Poelker JLEIC bunched magnetized electron cooler is part of Collider Ring and aims to maintain ion beam emittance and extend luminosity lifetime LDRD Scientific Goals: Generate magnetized electron beam and measure its properties Explore impact of cathode magnet on photogun operation LDRD Benefits: Simulations and measurements will provide insights on ways to optimize JLEIC electron cooler and help design appropriate electron source JLab will have direct experience magnetizing high current electron beam

2 Milestones and Costs Materials and Supplies: Labor: FY16 $339,211 FY17
Year 1: Generate non-magnetized beam. Design, procure and install cathode magnet, pucks and slits. Year 2: Generate magnetized beam. Measure mechanical angular momentum and benchmark simulation. Year 3: Measure photocathode lifetime vs magnetization up to 32 mA. Materials and Supplies: Cathode solenoid magnet and pucks Three skew quadrupoles Beamline hardware Laser components Labor: Cathode magnet design, procurement, mapping and installation Mechanical designer for cathode magnet support, pucks, slits and beamline ASTRA and GPT modeling (Fay Hannon) Postdoc – years 2 and 3 FY16 $339,211 FY17 $265,850 FY18 $212,025 Total $817,086

3 (Round-to-Flat Beam Transformer)
Experimental Overview: Gun Test Stand Cathode Anode K2CsSb Photocathode Solenoid (Bz=2kG) Diagnostic Cross 1 (Slit + YAG Screen) Three Skew Quads (Round-to-Flat Beam Transformer) Diagnostic Cross 2 Diagnostic Cross 3 (YAG Screen) Beamline Focusing Green Laser Generate magnetized beam: Laser size:1 – 5 mm, Bz = 0 – 2 kG Bunch charge: 1 – 500 pC Frequency: 15 Hz – MHz Bunch length: 10 – 100 ps Average beam currents up to 32 mA Gun high voltage: 200 – 350 kV

4 FY16 Accomplishments K2CsSb Photocathode Preparation Chamber, Gun and Beamline: delivered 1 mA to dump (non-magnetized) Simulation (Fay Hannon): Used ASTRA and GPT simulation to design beamline and to locate magnets and diagnostics at optimum positions Simulated magnetized electron beam properties along beamline for various starting conditions Simulated a round to flat transformer

5 Cathode Solenoid Magnet
Magnet is now at Magnet Measurement Facility to be mapped Magnet Power Supply: Use new spare CEBAF Dogleg magnet power supply (500A, 80V) Molybdenum Steel New Pucks Designed to enhance magnetic field at cathode to 2.0 kG

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