Abstract
We report on measurements and analysis of a field-emitted electron current in the very-high-frequency (VHF) gun, a room temperature rf gun operating at high field and continuous wave (CW) mode at the Lawrence Berkeley National Laboratory (LBNL). The VHF gun is the core of the Advanced Photo-injector Experiment (APEX) at LBNL, geared toward the development of an injector for driving the next generation of high average power x-ray free electron lasers. High accelerating fields at the cathode are necessary for the high-brightness performance of an electron gun. When coupled with CW operation, such fields can generate a significant amount of field-emitted electrons that can be transported downstream the accelerator forming the so-called ``dark current.'' Elevated levels of a dark current can cause radiation damage, increase the heat load in the downstream cryogenic systems, and ultimately limit the overall performance and reliability of the facility. We performed systematic measurements that allowed us to characterize the field emission from the VHF gun, determine the location of the main emitters, and define an effective strategy to reduce and control the level of dark current at APEX. Furthermore, the energy spectra of isolated sources have been measured. A simple model for energy data analysis was developed that allows one to extract information on the emitter from a single energy distribution measurement.
Highlights
The remarkable improvement in electron beam brightness by modern photoguns is having a tremendous impact on the range of applications based on electron accelerators
We report on measurements and analysis of a field-emitted electron current in the very-high-frequency (VHF) gun, a room temperature rf gun operating at high field and continuous wave (CW) mode at the Lawrence Berkeley National Laboratory (LBNL)
We report on the results of a systematic study of dark current emission from the VHF gun of the Advanced Photo-injector Experiment (APEX) at the Lawrence Berkeley National Laboratory (LBNL), a CW source of picosecond electron beams with measured accelerating electric fields at the cathode in excess of 20 MV=m, the highest demonstrated so far for a high repetition rate electron source
Summary
APEX at LBNL has been conceived and developed to demonstrate the capability of a new concept rf gun, the VHF gun [9,10], of delivering electron beams with quality required by x-ray free electron laser (FEL) applications at MHz-class repetition rates. APEX is staged in three phases, with the first, Phase-0, dedicated to the demonstration of the rf and vacuum performance of the VHF gun and to initiate the characterization of several different types of high quantum efficiency (QE) photocathodes. This phase is successfully completed and the results are reported elsewhere [11]. The installation of Phase-II, the last of the project, will be completed in the first part of 2015 In this final stage, the addition of a small linac will allow one to accelerate the beam at relativistic energies (∼ 30 MeV) and characterize the beam brightness in a regime where space charge forces are small enough to allow for reliable measurements. We report the results and the analysis of such measurements
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