Add to ORKGA source of ultra-cold magnetically guided DC electron beams with a transmission mode GaAs-photocathode has been developed. The mA currents and the required stability are obtained by using state-of-the-art technology of photocathode fabrication and cleaning in UHV. To optimize energy spreads from photocathodes, studies of the complete (longitudinal and transverse) energy distribution of the magnetized electron beam were performed. They allowed us to get a detailed look on the energy loss and momentum scattering of the electrons at the interface and finally, to obtain narrow electron energy spreads (below 10 meV) from the photocathode
A cold electron target with a cryogenic GaAs-photocathode electron source was developed for the Heid...
We present cesium-coated GaAs photocathodes as reliable sources of intense, quasi-monoenergetic elec...
Many efforts were made over the last decades to develop a better polarized electron source for the h...
A source of ultra-cold magnetically guided DC electron beams with a transmission mode GaAs-photocath...
The deceleration of electrons confined by a weak guiding magnetic field has been studied with the go...
The deceleration of electrons confined by a weak guiding magnetic field has been studied with the go...
An ultra cold electron source was developed for the storage ring TSR in Heidelberg to study electron...
An ultra cold electron source was developed for the storage ring TSR in Heidelberg to study electron...
An ultra cold electron source was developed for the storage ring TSR in Heidelberg to study electron...
The investigation objects are the gallium arsenide photocathode and electron beams. The aim is to ge...
To study electron-ion interactions at the Heidelberg heavy-ion storage ring, electron beams with low...
To study electron-ion interactions at the Heidelberg heavy-ion storage ring, electron beams with low...
To study electron-ion interactions at the Heidelberg heavy-ion storage ring, electron beams with low...
A cold electron target with a cryogenic GaAs-photocathode electron source was developed for the Heid...
A cold electron target with a cryogenic GaAs-photocathode electron source was developed for the Heid...
A cold electron target with a cryogenic GaAs-photocathode electron source was developed for the Heid...
We present cesium-coated GaAs photocathodes as reliable sources of intense, quasi-monoenergetic elec...
Many efforts were made over the last decades to develop a better polarized electron source for the h...
A source of ultra-cold magnetically guided DC electron beams with a transmission mode GaAs-photocath...
The deceleration of electrons confined by a weak guiding magnetic field has been studied with the go...
The deceleration of electrons confined by a weak guiding magnetic field has been studied with the go...
An ultra cold electron source was developed for the storage ring TSR in Heidelberg to study electron...
An ultra cold electron source was developed for the storage ring TSR in Heidelberg to study electron...
An ultra cold electron source was developed for the storage ring TSR in Heidelberg to study electron...
The investigation objects are the gallium arsenide photocathode and electron beams. The aim is to ge...
To study electron-ion interactions at the Heidelberg heavy-ion storage ring, electron beams with low...
To study electron-ion interactions at the Heidelberg heavy-ion storage ring, electron beams with low...
To study electron-ion interactions at the Heidelberg heavy-ion storage ring, electron beams with low...
A cold electron target with a cryogenic GaAs-photocathode electron source was developed for the Heid...
A cold electron target with a cryogenic GaAs-photocathode electron source was developed for the Heid...
A cold electron target with a cryogenic GaAs-photocathode electron source was developed for the Heid...
We present cesium-coated GaAs photocathodes as reliable sources of intense, quasi-monoenergetic elec...
Many efforts were made over the last decades to develop a better polarized electron source for the h...