We developed GaN photocathodes for detecting ultraviolet radiation by using Mg-doped GaN. Crack-free, 200 nm thick GaN:Mg layers were grown by metal organic chemical vapor phase epitaxy (MOVPE) on a GaN template having a structure of undoped GaN/(AlN/GaN) multilayers on Si (111) substrate. The Mg concentration was varied in the range from 7×1018 to 7×1019 cm-3. The grown film was mounted in a phototube to operate in reflection mode; i.e. the light was incident from the photoemission side. The photoemission surface was activated by sequential adsorption of cesium and oxygen to reduce electron affinity, ensuring efficient electron emission. Photoemission spectrum was measured in the range of 200-600 nm. We found that the quantum efficiency of photoemission was affected by the crystallinity of GaN:Mg, depending on the concentration of Mg dopant and the growth pressure of GaN:Mg top photoemissive layer. The lower Mg concentration and higher growth pressure resulted in higher quantum efficiency. The obtained maximum quantum efficiency was 45% at 200 nm (6.2 eV) and 25% at 350 nm (3.54 eV). The elimination ratio between visible and UV light was 4 decades and the slope of cutoff was 10 nm per decade.
[1]
Hydrogen Dissociation from Mg-doped GaN
,
2004
.
[2]
W. E. Spicer,et al.
Photoemissive, Photoconductive, and Optical Absorption Studies of Alkali-Antimony Compounds
,
1958
.
[3]
Jason McPhate,et al.
Development of GaN photocathodes for UV detectors
,
2006
.
[4]
J. Pankove,et al.
Photoemission from GaN
,
1974
.
[5]
J. H. Buckley,et al.
High quantum efficiency ultraviolet/blue AlGaN/InGaN photocathodes grown by molecular-beam epitaxy
,
2005
.
[6]
Hirofumi Kan,et al.
GaN-based photocathodes with extremely high quantum efficiency
,
2005
.
[7]
Shunro Fuke,et al.
Optical properties of hexagonal GaN
,
1997
.
[8]
T. Egawa,et al.
Improved Characteristics of Blue and Green InGaN-Based Light-Emitting Diodes on Si Grown by Metalorganic Chemical Vapor Deposition
,
2002
.