What question did this study set out to answer?

The aim is to finalize the design of a photoinjector cavity for producing high-intensity electron bunches.

February 2, 2026Open Access

Final design of CARIE photoinjector cavity with plug insert

Key Points

The aim is to finalize the design of a photoinjector cavity for producing high-intensity electron bunches.
Final design of a 1.6-cell C-band RF photoinjector cavity was completed.
Optimized RF coupling waveguide network for reduced vacuum pressure.
Mechanical design considerations were addressed for photocathode plug alignment and laser pipes.
Cavity designed to operate at 5.712 GHz with electric fields up to 240 MV/m.
Capable of producing 250-pC electron bunches at room temperature.
Successful RF and vacuum simulations were reported for the design.

Abstract

At Los Alamos National Laboratory, we finalized the design of a 1.6-cell C-band RF photoinjector cavity for the Cathodes And Radiofrequency Interactions in Extremes (CARIE) project. The photoinjector cavity is intended to operate at 5.712 GHz, with an intense electric field on the photocathode up to 240 MV/m, producing 250-pC electron bunches at room temperature. The photoinjector cavity design focused on minimizing the peak electric and magnetic fields. The distributed RF coupling waveguide network design was optimized for achieving minimized vacuum pressure at the photocathode plug emitting surface. We report the RF simulation and vacuum simulation results of the photoinjector cavity. We also discuss the mechanical design considerations related to photocathode plug alignment, laser pipes, and baking out. The designed photoinjector cavity is currently under fabrication.

Final design of CARIE photoinjector cavity with plug insert

Key Points

Abstract

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