论文信息 - Channel electron multipliers: detection efficiencies with opaque MgF(2) photocathodes at XUV wavelengths.

Channel electron multipliers: detection efficiencies with opaque MgF(2) photocathodes at XUV wavelengths.

The detection efficiencies of channel electron multipliers with opaque MgF(2) photocathodes have been measured at wavelengths between 44 A and 900 A. Efficiencies a factor of 2 greater than those of uncoated channel electron multipliers were obtained over the wavelength range from 50 A to 350 A. The absolute detection efficiencies were greater than 10% in the range from 67 A to 990 A for photocathodes illuminated at an angle of incidence of 45 degrees , with additional increases in sensitivity being obtained at short wavelengths using higher angles of incidence. Following an initial aging period, the photocathodes showed no degradation of response during storage under vacuum or in air.

L. Lapson | L B Lapson | J G Timothy | J. Timothy

[1] James A. R. Samson. Absolute Intensity Measurements in the Vacuum Ultraviolet , 1964 .

[2] E. Arakawa,et al. Effect of Photon Refraction on Angular Dependence of Photoelectric Yields in the Wavelength Region 300–1200 Å* , 1966 .

[3] E. T. Arakawa,et al. Optical Properties of Magnesium Fluoride in the Vacuum Ultraviolet , 1967 .

[4] L. Lapson,et al. Use of MgF(2) and LiF Photocathodes in the Extreme Ultraviolet. , 1973, Applied optics.

[5] L. Lapson,et al. Use of Channel Electron Multipliers as Secondary Standard Detectors at EUV Wavelengths. , 1974, Applied optics.

[6] E. B. Saloman,et al. Absolute Radiometric Calibration of Detectors Between 200-600A. , 1975, Applied Optics.

[7] P. Metzger,et al. Intrinsic Photoemission of Alkali Halides , 1965 .

[8] J. E. Manson. Light source and filters for use in the 130-280-a region. , 1973, Applied optics.

[9] P. Metzger,et al. On the quantum efficiencies of twenty alkali halides in the 12–21 eV region , 1965 .

[10] L. Heroux,et al. The influence of cathode thickness and aging on the photoelectric yields of LiF and CsI in the xuv. , 1966, Applied optics.

[11] Frank Oppenheimer,et al. Polarization by Reflection and Some Optical Constants in the Extreme Ultraviolet , 1962 .