Add to ORKGFuture high brightness photoelectron sources delivering gt;100 mA average current call for a new generation of photocathodes. Materials which qualify for this purpose should exhibit low intrinsic emittance, long lifetime and high quantum efficiency at photon energies in the visible range of the spectrum to relax drive laser requirements. A combination of material science techniques are used to determine the influence of the growth parameters on structure and performance of photocathode materials . In situ XRR, XRD and GiSAXS measurements were performed at the synchrotron radiation sources, NSLS and CHESS. The growth of K3Sb, a precursor material of one of the prime candidates CsK2Sb, was studied intensively to optimize this intermediate gr...
The development of novel photocathode materials for ultra bright electron sources demands efficient ...
Photocathode R amp;D at the Helmholtz Zentrum Berlin HZB is driven by the motivation to produce hi...
Multi-alkali antimonide photocathodes can have high quantum efficiency similar to UV-sensitive (Cs₂T...
Next generation light sources, based on Energy Recovery Linac and Free Electron Laser technology wil...
High quantum efficiency photocathodes are mandatory for the operation of photoinjector driven electr...
Alkali antimonide photocathodes with high quantum efficiency hold the promise of delivering electron...
Reduction of roughness to the nm level is critical of achieving the ultimate performance from photoc...
CsK2Sb photocathodes with quantum efficiency on the order of 10% at 532 nm, and lifetime greater tha...
Bi-alkali antimonide photocathodes are one of the best known sources of electrons for high current a...
AbstractFor the development of high quantum efficiency photocathodes, the bi-alkali (K-Cs-Sb) photoc...
High quantum efficiency photocathodes are mandatory for the operation of photoinjector driven electr...
Alkali antimonide photocathodes were grown on Si 100 and studied by means of XPS and UHV AFM to val...
Due to the excellent photoemissive properties, especially low thermal emittance and high sensitivity...
Multi-alkali antimonide photocathodes can have high quantum efficiency similar to UV-sensitive (Cs2T...
Alkali antimonides have a long history as visible-light-sensitive photocathodes. This work focuses o...
The development of novel photocathode materials for ultra bright electron sources demands efficient ...
Photocathode R amp;D at the Helmholtz Zentrum Berlin HZB is driven by the motivation to produce hi...
Multi-alkali antimonide photocathodes can have high quantum efficiency similar to UV-sensitive (Cs₂T...
Next generation light sources, based on Energy Recovery Linac and Free Electron Laser technology wil...
High quantum efficiency photocathodes are mandatory for the operation of photoinjector driven electr...
Alkali antimonide photocathodes with high quantum efficiency hold the promise of delivering electron...
Reduction of roughness to the nm level is critical of achieving the ultimate performance from photoc...
CsK2Sb photocathodes with quantum efficiency on the order of 10% at 532 nm, and lifetime greater tha...
Bi-alkali antimonide photocathodes are one of the best known sources of electrons for high current a...
AbstractFor the development of high quantum efficiency photocathodes, the bi-alkali (K-Cs-Sb) photoc...
High quantum efficiency photocathodes are mandatory for the operation of photoinjector driven electr...
Alkali antimonide photocathodes were grown on Si 100 and studied by means of XPS and UHV AFM to val...
Due to the excellent photoemissive properties, especially low thermal emittance and high sensitivity...
Multi-alkali antimonide photocathodes can have high quantum efficiency similar to UV-sensitive (Cs2T...
Alkali antimonides have a long history as visible-light-sensitive photocathodes. This work focuses o...
The development of novel photocathode materials for ultra bright electron sources demands efficient ...
Photocathode R amp;D at the Helmholtz Zentrum Berlin HZB is driven by the motivation to produce hi...
Multi-alkali antimonide photocathodes can have high quantum efficiency similar to UV-sensitive (Cs₂T...