Ag–GaAs Schottky‐barrier photodiodes have been fabricated and evaluated as detectors of uv radiation. The quantum efficiency of these detectors is a maximum near 3225 A, and is much less in the visible and ir regions of the spectrum. The peak quantum efficiency and selectivity of the detector is determined by the thickness of the silver layer, which possesses a narrow transmission ``window'' for radiation near 3225 A wavelength. The transmittance of silver films evaporated on 7059 glass and quartz substrates was measured and compared with calculations based on previously published optical constants. At the transmittance peak, the extinction coefficient for these silver films was measured to be 0.38. From these transmittance measurements, the fraction of the radiation, incident on the silver, which enters the GaAs of the photodetectors was calculated as a function of wavelength and silver‐film thickness. This quantity was compared with the measured quantum efficiency of the diodes. At the peak, the compari...
[1]
H. Sterling,et al.
Chemical vapour deposition promoted by r.f. discharge
,
1965
.
[2]
R. H. Huebner,et al.
Optical Constants of Vacuum-Evaporated Silver Films*
,
1964
.
[3]
M. V. Sullivan,et al.
The Chemical Polishing of Gallium Arsenide in Bromine‐Methanol
,
1963
.
[4]
H. Philipp,et al.
Optical Constants of Silver
,
1961
.
[5]
H. Ehrenreich,et al.
Optical Properties of Ag and Cu
,
1962
.
[6]
O. S. Heavens,et al.
Optical Properties of Thin Solid Films
,
2011
.
[7]
C. Mead,et al.
Barrier Height Studies on Metal-Semiconductor Systems
,
1963
.
[8]
J. Biard,et al.
Optical microprobe response of GaAs diodes
,
1967
.
[9]
H. Ehrenreich,et al.
Optical Properties of Semiconductors
,
1963
.
[10]
M. V. Schneider,et al.
Schottky barrier photodiodes with antireflection coating
,
1966
.