Add to ORKGThe Advanced Photon Source (APS) ballistic bunch compression (BBC) gun in the Injector Test Stand (ITS) presently uses an M-type thermionic dispenser cathode as a photocathode. This photothermal cathode offers substan-tial advantages over conventional metal photocathodes, in-cluding easy replacement and easy cleaning via the cath-ode’s built-in heater. We present the results of photoemis-sion measurements as a function of cathode heater power, laser pulse energy, and applied rf field strength
With progress of photoinjector technology, thermal emittance has become the primary limitation of el...
Recent computational optimizations have demonstrated that it should be possible to construct electro...
The Advanced Photon Source (APS) injector includes an S-band linac with the capability to accelerate...
The thermionic RF gun using a BaO cathode at the MAX-lab linac injector has been successfully commis...
Thermionic dispenser cathodes are widely used in modern high-power microwave tubes. Use of these cat...
The existing thermionic RF-gun (tungsten-BaO cathode) at the MAX-lab linac injector has been adapted...
The Advanced Photon Source (APS) has a thermionic-cathode rf gun system capable of providing beam to...
In state of the art photoinjector electron sources, thermal emittance from photoemission dominates t...
In state of the art photoinjector electron sources, thermal emittance from photoemission dominates t...
In state of the art photoinjector electron sources, thermal emittance from photoemission dominates t...
The major challenges in operating a photocathode RF gun based injector are its stability and reliabi...
In state of the art photoinjector electron sources, cathode performancedetermines the lower limit of...
The thermionic RF-gun operating at the injector at MAX-lab is being adapted to a photo cathode. A 5 ...
International audienceThis document presents a study on an improved bi-alkali photocathode used on l...
Photocathodes for free electron lasers (FELs) are required to produce nano-Coulomb pulses in picosec...
With progress of photoinjector technology, thermal emittance has become the primary limitation of el...
Recent computational optimizations have demonstrated that it should be possible to construct electro...
The Advanced Photon Source (APS) injector includes an S-band linac with the capability to accelerate...
The thermionic RF gun using a BaO cathode at the MAX-lab linac injector has been successfully commis...
Thermionic dispenser cathodes are widely used in modern high-power microwave tubes. Use of these cat...
The existing thermionic RF-gun (tungsten-BaO cathode) at the MAX-lab linac injector has been adapted...
The Advanced Photon Source (APS) has a thermionic-cathode rf gun system capable of providing beam to...
In state of the art photoinjector electron sources, thermal emittance from photoemission dominates t...
In state of the art photoinjector electron sources, thermal emittance from photoemission dominates t...
In state of the art photoinjector electron sources, thermal emittance from photoemission dominates t...
The major challenges in operating a photocathode RF gun based injector are its stability and reliabi...
In state of the art photoinjector electron sources, cathode performancedetermines the lower limit of...
The thermionic RF-gun operating at the injector at MAX-lab is being adapted to a photo cathode. A 5 ...
International audienceThis document presents a study on an improved bi-alkali photocathode used on l...
Photocathodes for free electron lasers (FELs) are required to produce nano-Coulomb pulses in picosec...
With progress of photoinjector technology, thermal emittance has become the primary limitation of el...
Recent computational optimizations have demonstrated that it should be possible to construct electro...
The Advanced Photon Source (APS) injector includes an S-band linac with the capability to accelerate...