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Injector for the Electron Cooler

Published bySégolène Marie-Paule Sylvain Modified over 4 years ago

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Presentation on theme: "Injector for the Electron Cooler"— Presentation transcript:

1 Injector for the Electron Cooler
An overview of photoinjector options Fay Hannon Accelerator Scientist SRFR&D JLEIC Collaboration Meeting April 1-3, 2019

2 Would like to optimize the design with GPT
Requirements From the injector 3.2nC ~5-8MeV 43.3MHz bunch frequency Magnetized with drift emittance 36um From cathode inside a solenoid Intrinsic emittance <19um Assumptions Gun voltage 400kV (DC) Magnetized beam Goal to preserve magnetization Want linear r, ρΦ Want to minimize the emittance in the cooling solenoid Thermal contributions Non linear dynamics Simulations are good for small, on axis beams Would like to optimize the design with GPT

3 How to define the objective/ what is ‘good’
Can think of the emittance as two contributions: Correlated r, ρΦ, from the magnetization Uncorrelated from thermal, space charge, RF In practice, correlated and uncorrelated emittance get messy Want correlated emittance to always be the correct value Want uncorrelated emittance to be small Small longitudinal emittance Small intrinsic energy spread Linear Uniform distribution in z

4 High Frequency Layout @ 952MHz
Gun Single cell buncher / capture cavities 4 x two-cell booster 3rd harmonic (not shown)

5 High Frequency Optimization Results
objectives

6 High Frequency Simulation Results
_13668std High Frequency Simulation Results

7 High Frequency Simulation Results
Transverse Emittance Fit a slope to x, py data to get a correlated px and uncorrelated px

8 High Frequency Simulation Results
Transverse phase space

9 Optimize with uniform distribution as an objective
Trade off with magnetization (average is correct)

10 Low frequency solution – same layout @ 433MHz

11 Low Frequency Simulation Results

12 Low Frequency Simulation Results

13 High Frequency Simulation Results
_std54 High Frequency Simulation Results Transverse emittance

14 Comparison High Frequency Low Frequency KE [MeV] 6.8 8.5 z rms [mm] 4.03 3.36 Uncorrelated Emit [um] 6.4 11.5 Ez [keV mm] 24.4 28.6

15 Improve the Low Frequency Design
Significant inverse correlation between Tcut and stduniform Significant correlation between XYrms and cnemixrms

16 Preliminary results Long bunch

17 Preliminary results

18 Outlook Improve the optimization More generations (this is ongoing)
Quantify quality of magnetization Alternate layouts Laser shaping

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