Cornell University
Author in the following contributions
- Chemical robustness enhancement of negative electron affinity photocathodes through cesium-iodide deposition
- Alternative negative electron affinity activation studies at HERACLES
- An overview of spin-polarized photocathode research at Cornell University
- Demonstration of enhanced quantum efficiency from optical interference in alkali antimonide photocathodes
- PHOtocathode Epitaxy and Beam Experiments laboratory at Cornell: current status and future work
- Preliminary tests for the diffusion bonding of high gradient cryogenic radio-frequency cavities
- Multi-objective genetic optimization of high charge TopGun photoinjector
- High gradient C-band photoinjector performance utilizing sacrificial charge to enhance brightness
- Update on the MEDUSA ultrafast electron diffraction beamline at Cornell
- Pulsed laser deposition assisted growth of alkali-based photocathodes
- Picometer scale emittance from plasmonic spiral photocathode for particle accelerator applications
- NaKSb photocathode tests in a high gradient S-band photoinjector
- Epitaxial growth of cesium potassium antimonide photocathode
- Updates on the Cornell cryo-MTE-meter beamline
- Optimizations for ultrafast electron diffraction with a cryogenic C-band gun
- Picometer scale emittance from plasmonic spiral photocathode for particle accelerator applications
- Demonstration of enhanced quantum efficiency from optical interference in alkali antimonide photocathodes
- Updates on the Cornell cryo-MTE-meter beamline
- Optimizations for ultrafast electron diffraction with a cryogenic C-band gun
- Chemical robustness enhancement of negative electron affinity photocathodes through cesium-iodide deposition
- First Steps Toward Molecular beam epitaxial growth of potassium antimonide photocathodes
