Add to ORKGIn this paper we discuss the possibility to generate sub-picosecond electron bunches with a small emittance directly from the superconducting 5.3 cell rf gun [1] by illuminating a photo-cathode in the rf cavity with a phase-locked 3 ps laser pulses. The bunch length compression caused by the RF force take place in the first TESLA cell of the rf gun. Numerical simulations of the beam dynamics in the rf gun and of the radiation of the corresponding electron bunch in a wiggler predict a coherent enhancement of radiation for wavelength smaller than 100 micron
Free-electron lasers are high power radiation sources that utilize a distributed interaction between...
An electron beam generated in a radio-frequency photo-injector illuminated by a laser “comb” pulse e...
We are developing an ultra-fast and ultra-cold electron source based on a grating magneto optical tr...
Abstract In this paper we discuss the possibility to generate sub-picosecond electron bunches dire...
SUNSHINE (Stanford University Short Intense Electron Source), a facility to generate high-intensity,...
We present a new design for a rf electron gun to be used in ultrashort (∼1 ps) electron bunch gener...
Sub-picosecond electron bunch creation has, thus far, been realized with the use of femtosecond lase...
We present an RF gun design for single shot ultrafast electron diffraction experiments that can prod...
High-intensity, low-emittance, short electron bunches are needed to attain Self-Amplified Spontaneou...
Ultra short bunches with low longitudinal emittance obtained using multi-cell superconducting RF gun...
established aiming to produce femtosecond electron pulses utilizing a combination of an S-band therm...
In this paper, we discuss the velocity compression in a short rf linac of an electron bunch from a r...
A short electron bunch undergoing circular motion produces space-charge forces that do not decrease ...
A radio-frequency photoinjector is widely used for generating picosecond-femtosecond electron bunche...
We present the design of a photo-injector based accelerator for pulsed radiolysis applications. This...
Free-electron lasers are high power radiation sources that utilize a distributed interaction between...
An electron beam generated in a radio-frequency photo-injector illuminated by a laser “comb” pulse e...
We are developing an ultra-fast and ultra-cold electron source based on a grating magneto optical tr...
Abstract In this paper we discuss the possibility to generate sub-picosecond electron bunches dire...
SUNSHINE (Stanford University Short Intense Electron Source), a facility to generate high-intensity,...
We present a new design for a rf electron gun to be used in ultrashort (∼1 ps) electron bunch gener...
Sub-picosecond electron bunch creation has, thus far, been realized with the use of femtosecond lase...
We present an RF gun design for single shot ultrafast electron diffraction experiments that can prod...
High-intensity, low-emittance, short electron bunches are needed to attain Self-Amplified Spontaneou...
Ultra short bunches with low longitudinal emittance obtained using multi-cell superconducting RF gun...
established aiming to produce femtosecond electron pulses utilizing a combination of an S-band therm...
In this paper, we discuss the velocity compression in a short rf linac of an electron bunch from a r...
A short electron bunch undergoing circular motion produces space-charge forces that do not decrease ...
A radio-frequency photoinjector is widely used for generating picosecond-femtosecond electron bunche...
We present the design of a photo-injector based accelerator for pulsed radiolysis applications. This...
Free-electron lasers are high power radiation sources that utilize a distributed interaction between...
An electron beam generated in a radio-frequency photo-injector illuminated by a laser “comb” pulse e...
We are developing an ultra-fast and ultra-cold electron source based on a grating magneto optical tr...