What question did this study set out to answer?

The aim is to minimize longitudinal emittance in a photoinjector while understanding contributing factors.

February 2, 2026Open Access

Preliminary computational study on minimizing longitudinal emittance in photoinjector

Key Points

The aim is to minimize longitudinal emittance in a photoinjector while understanding contributing factors.
Carried out a comprehensive scan of injector parameters including gun phase, laser spot size, pulse length, and solenoid strengths.
Used General Particle Tracer (GPT) for simulations accounting for space-charge effects.
Determined minimum achievable longitudinal emittance and identified sources of emittance growth.
Identified parameters that significantly impact longitudinal emittance.
Developed strategies to mitigate emittance growth.
Demonstrated potential improvements in emittance performance with optimized parameters.

Abstract

Recently, we proposed a novel photoinjector that incorporates an emittance exchange (EEX) beamline. Previous studies demonstrated promising 4D emittance performance of an EEX-based injector, but the beam’s longitudinal emittance at the linac exit still limits the final transverse emittance downstream of the EEX stage. We performed a comprehensive scan of injector parameters—including gun phase, laser spot size and pulse length, and solenoid strengths—to (1) estimate the minimum achievable longitudinal emittance, (2) identify sources of emittance growth, and (3) explore mitigation strategies. Here, we present the status of this study. Simulations were carried out using General Particle Tracer (GPT) including space-charge effects.

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