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  1. E. J. Danielewicz, T. K. Plant, T. A. De Temple, “Hybrid Output Mirror for Optically Pumped For Infrared Lasers,” Opt. Commun. 13, 360 (1975).
    [CrossRef]
  2. R. A. Wood, N. Brignall, C. R. Pidgeon, F. Al-Berkdar, “An Optically Pumped Waveguide Laser with Mesh Reflector,” Opt. Commun. 14, 301 (1975).
    [CrossRef]
  3. D. T. Hodges, F. B. Foote, R. D. Reel, “Efficient High-Power Operation of the cw Far-Infrared Waveguide Laser,” Appl. Phys. Lett. 29, 662 (1976).
    [CrossRef]
  4. E. J. Danielewitz, P. D. Colemen, “Hybrid Metal Mesh-Dielectric Mirrors for Optically Pumped Far Infrared Lasers,” Appl. Opt 15, 761 (1976).
    [CrossRef]
  5. D. A. Weitz, W. J. Srocpol, M. Tinkham, “Capacitive-Mesh Output Couplers for Optically Pumped Far-Infrared Lasers,” Opt. Lett. 3, 13 (1978).
    [CrossRef] [PubMed]
  6. M. Durschlag, T. A. DeTemple, “Far-IR Optical Properties of Freestanding and Dielectrically Backed Metal Meshes,” Appl. Opt. 20, 1245 (1981).
    [CrossRef] [PubMed]
  7. T. A. DeTemple, E. J. Danielewitz, “Continuous Wave Optically Pumped Lasers,” in Infrared and Millimeter Waves, Vol. 7, K. J. Button, ed. (Academic, New York, 1983), p. 1.
  8. E. E. Russell, E. E. Bell, “Optical Constants of Crystal Quartz in Far IR,” J. Opt. Soc. Am. 57, 341 (1967); “Optical Constants of Sapphire in Far IR,” J. Opt. Soc. Am. 57, 543 (1967).
    [CrossRef] [PubMed]
  9. J. R. Birch, T. J. Parker, “Dispersive Fourier Transform Spectroscopy,” in Infrared and Millimeter Waves, Vol. 2, K. J. Button, ed. (Academic, New York, 1979), p. 220.
  10. C. M. Randall, R. D. Rawcliffe, “Refractive Indices of Germanium, Silicon, and Fused Quartz in the Far IR,” Appl. Opt. 6, 1889 (1967).
    [CrossRef] [PubMed]
  11. E. V. Loenenstein, D. R. Smith, R. L. Morgan, “Optical Constants of Far IR Materials. 2: Crystalline Solids,” Appl Opt. 12, 398 (1973).
    [CrossRef]
  12. J. J. Degnan, “The Waveguide Laser: A Review,” Appl. Phys. 11, 1(1976).
    [CrossRef]
  13. I. Boscolo, P. Bernardini, “A High Performance FIR Cavity,” submitted to Opt. Commun.

1981 (1)

1978 (1)

1976 (3)

D. T. Hodges, F. B. Foote, R. D. Reel, “Efficient High-Power Operation of the cw Far-Infrared Waveguide Laser,” Appl. Phys. Lett. 29, 662 (1976).
[CrossRef]

E. J. Danielewitz, P. D. Colemen, “Hybrid Metal Mesh-Dielectric Mirrors for Optically Pumped Far Infrared Lasers,” Appl. Opt 15, 761 (1976).
[CrossRef]

J. J. Degnan, “The Waveguide Laser: A Review,” Appl. Phys. 11, 1(1976).
[CrossRef]

1975 (2)

E. J. Danielewicz, T. K. Plant, T. A. De Temple, “Hybrid Output Mirror for Optically Pumped For Infrared Lasers,” Opt. Commun. 13, 360 (1975).
[CrossRef]

R. A. Wood, N. Brignall, C. R. Pidgeon, F. Al-Berkdar, “An Optically Pumped Waveguide Laser with Mesh Reflector,” Opt. Commun. 14, 301 (1975).
[CrossRef]

1973 (1)

E. V. Loenenstein, D. R. Smith, R. L. Morgan, “Optical Constants of Far IR Materials. 2: Crystalline Solids,” Appl Opt. 12, 398 (1973).
[CrossRef]

1967 (2)

Al-Berkdar, F.

R. A. Wood, N. Brignall, C. R. Pidgeon, F. Al-Berkdar, “An Optically Pumped Waveguide Laser with Mesh Reflector,” Opt. Commun. 14, 301 (1975).
[CrossRef]

Bell, E. E.

Bernardini, P.

I. Boscolo, P. Bernardini, “A High Performance FIR Cavity,” submitted to Opt. Commun.

Birch, J. R.

J. R. Birch, T. J. Parker, “Dispersive Fourier Transform Spectroscopy,” in Infrared and Millimeter Waves, Vol. 2, K. J. Button, ed. (Academic, New York, 1979), p. 220.

Boscolo, I.

I. Boscolo, P. Bernardini, “A High Performance FIR Cavity,” submitted to Opt. Commun.

Brignall, N.

R. A. Wood, N. Brignall, C. R. Pidgeon, F. Al-Berkdar, “An Optically Pumped Waveguide Laser with Mesh Reflector,” Opt. Commun. 14, 301 (1975).
[CrossRef]

Colemen, P. D.

E. J. Danielewitz, P. D. Colemen, “Hybrid Metal Mesh-Dielectric Mirrors for Optically Pumped Far Infrared Lasers,” Appl. Opt 15, 761 (1976).
[CrossRef]

Danielewicz, E. J.

E. J. Danielewicz, T. K. Plant, T. A. De Temple, “Hybrid Output Mirror for Optically Pumped For Infrared Lasers,” Opt. Commun. 13, 360 (1975).
[CrossRef]

Danielewitz, E. J.

E. J. Danielewitz, P. D. Colemen, “Hybrid Metal Mesh-Dielectric Mirrors for Optically Pumped Far Infrared Lasers,” Appl. Opt 15, 761 (1976).
[CrossRef]

T. A. DeTemple, E. J. Danielewitz, “Continuous Wave Optically Pumped Lasers,” in Infrared and Millimeter Waves, Vol. 7, K. J. Button, ed. (Academic, New York, 1983), p. 1.

De Temple, T. A.

E. J. Danielewicz, T. K. Plant, T. A. De Temple, “Hybrid Output Mirror for Optically Pumped For Infrared Lasers,” Opt. Commun. 13, 360 (1975).
[CrossRef]

Degnan, J. J.

J. J. Degnan, “The Waveguide Laser: A Review,” Appl. Phys. 11, 1(1976).
[CrossRef]

DeTemple, T. A.

M. Durschlag, T. A. DeTemple, “Far-IR Optical Properties of Freestanding and Dielectrically Backed Metal Meshes,” Appl. Opt. 20, 1245 (1981).
[CrossRef] [PubMed]

T. A. DeTemple, E. J. Danielewitz, “Continuous Wave Optically Pumped Lasers,” in Infrared and Millimeter Waves, Vol. 7, K. J. Button, ed. (Academic, New York, 1983), p. 1.

Durschlag, M.

Foote, F. B.

D. T. Hodges, F. B. Foote, R. D. Reel, “Efficient High-Power Operation of the cw Far-Infrared Waveguide Laser,” Appl. Phys. Lett. 29, 662 (1976).
[CrossRef]

Hodges, D. T.

D. T. Hodges, F. B. Foote, R. D. Reel, “Efficient High-Power Operation of the cw Far-Infrared Waveguide Laser,” Appl. Phys. Lett. 29, 662 (1976).
[CrossRef]

Loenenstein, E. V.

E. V. Loenenstein, D. R. Smith, R. L. Morgan, “Optical Constants of Far IR Materials. 2: Crystalline Solids,” Appl Opt. 12, 398 (1973).
[CrossRef]

Morgan, R. L.

E. V. Loenenstein, D. R. Smith, R. L. Morgan, “Optical Constants of Far IR Materials. 2: Crystalline Solids,” Appl Opt. 12, 398 (1973).
[CrossRef]

Parker, T. J.

J. R. Birch, T. J. Parker, “Dispersive Fourier Transform Spectroscopy,” in Infrared and Millimeter Waves, Vol. 2, K. J. Button, ed. (Academic, New York, 1979), p. 220.

Pidgeon, C. R.

R. A. Wood, N. Brignall, C. R. Pidgeon, F. Al-Berkdar, “An Optically Pumped Waveguide Laser with Mesh Reflector,” Opt. Commun. 14, 301 (1975).
[CrossRef]

Plant, T. K.

E. J. Danielewicz, T. K. Plant, T. A. De Temple, “Hybrid Output Mirror for Optically Pumped For Infrared Lasers,” Opt. Commun. 13, 360 (1975).
[CrossRef]

Randall, C. M.

Rawcliffe, R. D.

Reel, R. D.

D. T. Hodges, F. B. Foote, R. D. Reel, “Efficient High-Power Operation of the cw Far-Infrared Waveguide Laser,” Appl. Phys. Lett. 29, 662 (1976).
[CrossRef]

Russell, E. E.

Smith, D. R.

E. V. Loenenstein, D. R. Smith, R. L. Morgan, “Optical Constants of Far IR Materials. 2: Crystalline Solids,” Appl Opt. 12, 398 (1973).
[CrossRef]

Srocpol, W. J.

Tinkham, M.

Weitz, D. A.

Wood, R. A.

R. A. Wood, N. Brignall, C. R. Pidgeon, F. Al-Berkdar, “An Optically Pumped Waveguide Laser with Mesh Reflector,” Opt. Commun. 14, 301 (1975).
[CrossRef]

Appl Opt. (1)

E. V. Loenenstein, D. R. Smith, R. L. Morgan, “Optical Constants of Far IR Materials. 2: Crystalline Solids,” Appl Opt. 12, 398 (1973).
[CrossRef]

Appl. Opt (1)

E. J. Danielewitz, P. D. Colemen, “Hybrid Metal Mesh-Dielectric Mirrors for Optically Pumped Far Infrared Lasers,” Appl. Opt 15, 761 (1976).
[CrossRef]

Appl. Opt. (2)

Appl. Phys. (1)

J. J. Degnan, “The Waveguide Laser: A Review,” Appl. Phys. 11, 1(1976).
[CrossRef]

Appl. Phys. Lett. (1)

D. T. Hodges, F. B. Foote, R. D. Reel, “Efficient High-Power Operation of the cw Far-Infrared Waveguide Laser,” Appl. Phys. Lett. 29, 662 (1976).
[CrossRef]

J. Opt. Soc. Am. (1)

Opt. Commun. (2)

E. J. Danielewicz, T. K. Plant, T. A. De Temple, “Hybrid Output Mirror for Optically Pumped For Infrared Lasers,” Opt. Commun. 13, 360 (1975).
[CrossRef]

R. A. Wood, N. Brignall, C. R. Pidgeon, F. Al-Berkdar, “An Optically Pumped Waveguide Laser with Mesh Reflector,” Opt. Commun. 14, 301 (1975).
[CrossRef]

Opt. Lett. (1)

Other (3)

J. R. Birch, T. J. Parker, “Dispersive Fourier Transform Spectroscopy,” in Infrared and Millimeter Waves, Vol. 2, K. J. Button, ed. (Academic, New York, 1979), p. 220.

T. A. DeTemple, E. J. Danielewitz, “Continuous Wave Optically Pumped Lasers,” in Infrared and Millimeter Waves, Vol. 7, K. J. Button, ed. (Academic, New York, 1983), p. 1.

I. Boscolo, P. Bernardini, “A High Performance FIR Cavity,” submitted to Opt. Commun.

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Figures (3)

Fig. 1
Fig. 1

Schematic of the FIR output mirror. The quartz disk is glued on the metal surface.

Fig. 2
Fig. 2

Transverse intensity profile of the pump radiation inside the FIR cavity (a) without and (b) with the output mirror. Both profiles show interference fringes, but in the closed cavity the fringes contrast much more.

Fig. 3
Fig. 3

Transverse intensity profile of the FIR beam.

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