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References

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  1. P. R. Griffiths, Chemical Fourier Transform Spectroscopy (Wiley, New York, 1975), pp. 10, 110, 172.
  2. Ref. 1, p. 123.
  3. W. H. Steel, Interferometry (Cambridge U. P., London, 1967), p. 57.
  4. R. J. Bell, Introductory Fourier Transform Spectroscopy (Academic, New York, 1972), p. 142ff.

Bell, R. J.

R. J. Bell, Introductory Fourier Transform Spectroscopy (Academic, New York, 1972), p. 142ff.

Griffiths, P. R.

P. R. Griffiths, Chemical Fourier Transform Spectroscopy (Wiley, New York, 1975), pp. 10, 110, 172.

Steel, W. H.

W. H. Steel, Interferometry (Cambridge U. P., London, 1967), p. 57.

Other

P. R. Griffiths, Chemical Fourier Transform Spectroscopy (Wiley, New York, 1975), pp. 10, 110, 172.

Ref. 1, p. 123.

W. H. Steel, Interferometry (Cambridge U. P., London, 1967), p. 57.

R. J. Bell, Introductory Fourier Transform Spectroscopy (Academic, New York, 1972), p. 142ff.

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Figures (4)

Fig. 1
Fig. 1

Schematic diagram of the optical system.

Fig. 2
Fig. 2

(a) Antiinterferogram produced by thermal radiation, (b) Signal produced by sum of interferogram from source radiation and antiinterferogram from thermal radiation.

Fig. 3
Fig. 3

Optical paths taken by radiation from source (single arrows) and thermal radiation from sample (double arrows, dotted path) after rotating optical axis. Angle φ has been greatly exaggerated.

Fig. 4
Fig. 4

Illustrating origin of delay d and translation t.

Equations (1)

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t = 2 δ tan φ cos φ , d = [ ( 2 δ ) / c ] cos φ .

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