Reflection polarizers for the vacuum ultraviolet using Al + MgF(2) mirrors and an MgF(2) plate.

The performance of a three mirror polarizer wherein one of the reflecting surfaces is a MgF(2) plate illuminated at, or close to, the Brewster angle and the other two surfaces are Al + MgF(2) coatings is calculated. The polarization, R(s)/R(p), and throughput R(s). were obtained by taking the product of the individual values calculated at the appropriate angles of incidence. This polarizer is most efficient in the 1200-2000-A wavelength region. By choosing the proper angle of incidence on the MgF(2) plate, polarization values of 100 and more are obtained from about 900 A to 3000 A. The polarizer is also useful to wavelengths as short as 500 A although the polarization value decreases to about 10 at this wavelength. Comparing this polarizer to a four mirror polarizer wherein one reflecting surface is MgF(2) at, or close to, the Brewster angle and the other three surfaces are Al + MgF(2) coatings showed that the four mirror polarizer had a somewhat larger polarization but a lower throughput. A three mirror polarizer utilizing one MgF(2) surface and two Al + MgF(2) surfaces was constructed and used to measure the R(p) component of a MgF(2) test plate. The measurements showed a deep minimum at the Brewster angle. Similar measurements were made to obtain R(s) and R(p) for an evaporated film of ZnS. At 45 degrees , R(s)(2) = R(p), within the limits of accuracy of the measurement, and the residual polarization due to the monochromator grating was calculated to be less than 1.13 or in terms of fractional polarization, (I(s) - I(p))/(I(s) + I(p)), less than 6%.

[1]  M. W. Williams,et al.  A triple reflection polarizer for use in the vacuum ultraviolet. , 1969, Applied optics.

[2]  G. Hass,et al.  Optical Constants and Reflectance and Transmittance of Evaporated Aluminum in the Visible and Ultraviolet , 1961 .

[3]  W. Hunter On the optical constants of metals at wavelengths shorter that their critical wavelengths , 1964 .

[4]  R. Rowell,et al.  Determination of the absolute alignment of a polarizer. , 1969, Applied optics.

[5]  E. T. Arakawa,et al.  Polarization Studies in the Vacuum Ultraviolet , 1965 .

[6]  E. Arakawa,et al.  Time Studies of the Polarization due to Gratings. , 1969, Applied optics.

[7]  E. T. Arakawa,et al.  Optical Properties of MgO and MgF2 in the Extreme Ultraviolet Region , 1972 .

[8]  J. Samson,et al.  Angular distribution of photoelectrons at 584 A using polarized radiation , 1975 .

[9]  F. Forbes,et al.  A polarizer for the vacuum ultraviolet. , 1967, Applied optics.

[10]  G. Hass,et al.  Vacuum Deposition of Dielectric and Semiconductor Films by a CO(2) Laser. , 1969, Applied optics.

[11]  W. Hunter,et al.  Adjustable aperture stop to control the divergence and orientation of the beam emerging from a vacuum ultraviolet monochromator. , 1974, Applied optics.

[12]  H. Winter,et al.  A high-transmission triple-reflection polarizer for lyman-α radiation , 1974 .

[13]  William Ralph Hunter,et al.  Errors in using the Reflectance vs Angle of Incidence Method for Measuring Optical Constants , 1965 .

[14]  W. C. Walker,et al.  Pile-of-plates polarizer for the vacuum ultraviolet. , 1964 .

[15]  W. Hunter,et al.  Optical grating evaluator: a device for detailed measurement of diffraction grating efficiencies in the vacuum ultraviolet. , 1974, Applied optics.

[16]  N. A. Kuebler,et al.  Micaceous Biotite as Efficient Brewster Angle Polarizer for Vacuum Ultraviolet , 1966 .

[17]  S. P. Humphreys-Owen,et al.  Comparison of Reflection Methods for Measuring Optical Constants without Polarimetric Analysis, and Proposal for New Methods based on the Brewster Angle , 1961 .

[18]  D. C. Hinson State of Polarization of Light from a Normal-Incidence Vacuum-Ultraviolet Monochromator , 1966 .

[19]  J. Stenflo,et al.  Ultraviolet polarimeter to record resonance-line polarization in the solar spectrum around 130-150 nm. , 1976, Applied optics.

[20]  G. Carruthers,et al.  Mesh-based semitransparent photocathodes. , 1975, Applied optics.

[21]  L. R. Canfield,et al.  A Method for Measuring Polarization in the Vacuum Ultraviolet , 1965 .

[22]  G. Rosenbaum,et al.  Measurement of the polarization of extreme ultraviolet synchrotron radiation with a reflecting polarimeter. , 1968, Applied optics.

[23]  W. Johnson,et al.  Magnesium Fluoride Polarizing Prism for the Vacuum Ultraviolet , 1964 .

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