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  1. R. C. Ohlmann, P. L. Richards, M. Tinkham, J. Opt. Soc. Amer. 48, 531 (1958).
    [CrossRef]
  2. P. G. Frayne, Brit. J. Appl. Phys. 1, 741 (1968).
  3. R. Kaplan, Phys. Rev. 181, 1154 (1969).
    [CrossRef]
  4. M. Hoeksema, W. J. Sarjeant, E. Brannen, IEEE J. Quantum Electron. 5, 477 (1969).
    [CrossRef]
  5. J. A. Stratton, Electromagnetic Theory (McGraw-Hill Book Company, New York, 1941), p. 505.
  6. R. Turner, T. O. Poehler, J. Appl. Phys. 39, 5726 (1968).
    [CrossRef]
  7. J. R. Apel, T. O. Poehler, C. R. Westgage, Appl. Phys. Lett. 14, 161 (1969).
    [CrossRef]
  8. E. H. Putley, Appl. Opt. 4, 649 (1965).
    [CrossRef]
  9. W. J. Moore, H. Shenker, Infrared Phys. 5, 99 (1965).
    [CrossRef]

1969 (3)

R. Kaplan, Phys. Rev. 181, 1154 (1969).
[CrossRef]

M. Hoeksema, W. J. Sarjeant, E. Brannen, IEEE J. Quantum Electron. 5, 477 (1969).
[CrossRef]

J. R. Apel, T. O. Poehler, C. R. Westgage, Appl. Phys. Lett. 14, 161 (1969).
[CrossRef]

1968 (2)

R. Turner, T. O. Poehler, J. Appl. Phys. 39, 5726 (1968).
[CrossRef]

P. G. Frayne, Brit. J. Appl. Phys. 1, 741 (1968).

1965 (2)

E. H. Putley, Appl. Opt. 4, 649 (1965).
[CrossRef]

W. J. Moore, H. Shenker, Infrared Phys. 5, 99 (1965).
[CrossRef]

1958 (1)

R. C. Ohlmann, P. L. Richards, M. Tinkham, J. Opt. Soc. Amer. 48, 531 (1958).
[CrossRef]

Apel, J. R.

J. R. Apel, T. O. Poehler, C. R. Westgage, Appl. Phys. Lett. 14, 161 (1969).
[CrossRef]

Brannen, E.

M. Hoeksema, W. J. Sarjeant, E. Brannen, IEEE J. Quantum Electron. 5, 477 (1969).
[CrossRef]

Frayne, P. G.

P. G. Frayne, Brit. J. Appl. Phys. 1, 741 (1968).

Hoeksema, M.

M. Hoeksema, W. J. Sarjeant, E. Brannen, IEEE J. Quantum Electron. 5, 477 (1969).
[CrossRef]

Kaplan, R.

R. Kaplan, Phys. Rev. 181, 1154 (1969).
[CrossRef]

Moore, W. J.

W. J. Moore, H. Shenker, Infrared Phys. 5, 99 (1965).
[CrossRef]

Ohlmann, R. C.

R. C. Ohlmann, P. L. Richards, M. Tinkham, J. Opt. Soc. Amer. 48, 531 (1958).
[CrossRef]

Poehler, T. O.

J. R. Apel, T. O. Poehler, C. R. Westgage, Appl. Phys. Lett. 14, 161 (1969).
[CrossRef]

R. Turner, T. O. Poehler, J. Appl. Phys. 39, 5726 (1968).
[CrossRef]

Putley, E. H.

Richards, P. L.

R. C. Ohlmann, P. L. Richards, M. Tinkham, J. Opt. Soc. Amer. 48, 531 (1958).
[CrossRef]

Sarjeant, W. J.

M. Hoeksema, W. J. Sarjeant, E. Brannen, IEEE J. Quantum Electron. 5, 477 (1969).
[CrossRef]

Shenker, H.

W. J. Moore, H. Shenker, Infrared Phys. 5, 99 (1965).
[CrossRef]

Stratton, J. A.

J. A. Stratton, Electromagnetic Theory (McGraw-Hill Book Company, New York, 1941), p. 505.

Tinkham, M.

R. C. Ohlmann, P. L. Richards, M. Tinkham, J. Opt. Soc. Amer. 48, 531 (1958).
[CrossRef]

Turner, R.

R. Turner, T. O. Poehler, J. Appl. Phys. 39, 5726 (1968).
[CrossRef]

Westgage, C. R.

J. R. Apel, T. O. Poehler, C. R. Westgage, Appl. Phys. Lett. 14, 161 (1969).
[CrossRef]

Appl. Opt. (1)

Appl. Phys. Lett. (1)

J. R. Apel, T. O. Poehler, C. R. Westgage, Appl. Phys. Lett. 14, 161 (1969).
[CrossRef]

Brit. J. Appl. Phys. (1)

P. G. Frayne, Brit. J. Appl. Phys. 1, 741 (1968).

IEEE J. Quantum Electron. (1)

M. Hoeksema, W. J. Sarjeant, E. Brannen, IEEE J. Quantum Electron. 5, 477 (1969).
[CrossRef]

Infrared Phys. (1)

W. J. Moore, H. Shenker, Infrared Phys. 5, 99 (1965).
[CrossRef]

J. Appl. Phys. (1)

R. Turner, T. O. Poehler, J. Appl. Phys. 39, 5726 (1968).
[CrossRef]

J. Opt. Soc. Amer. (1)

R. C. Ohlmann, P. L. Richards, M. Tinkham, J. Opt. Soc. Amer. 48, 531 (1958).
[CrossRef]

Phys. Rev. (1)

R. Kaplan, Phys. Rev. 181, 1154 (1969).
[CrossRef]

Other (1)

J. A. Stratton, Electromagnetic Theory (McGraw-Hill Book Company, New York, 1941), p. 505.

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Figures (2)

Fig. 1
Fig. 1

Transmission of polarized far ir radiation as a function of angle between polarizer and analyzer. Wavelength, 337 μm; grazing angle ≈ 2°. Length of copper light pipes, 50 cm.

Fig. 2
Fig. 2

Transmission of polarized radiation vs angle between polarizer and analyzer for two orientations of polarization direction. Wavelength, 119 cm; grazing angle ≈ 1°. Copper light pipe: length, 50 cm; a = 0.8 cm; b = 1.6 cm.

Equations (6)

Equations on this page are rendered with MathJax. Learn more.

R 1 2 x cos θ , R 2 cos 2 θ 2 x cos θ + x 2 2 cos 2 θ + 2 x cos θ + x 2 ,
x = 0.183 ( ρ / λ ) 1 2 ,
R 1 2 x α , R 1 2 ( x / α ) .
( R ) N exp ( 2 N x α ) = exp ( 2 L x α 2 / a ) , ( R ) N exp ( 2 N x / α ) = exp ( 2 L x / a ) ,
T = exp ( 2 L x / b ) , T = 1 L x α 0 2 / a ,
β = ( max min ) / ( max + min ) .

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