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References

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  1. P. Kofstad, High Temperature Oxidation of Metals (Wiley, New York, 1963).
  2. S. Lugomer, M. Stipancic, A. Persin, Thin Films (submitted for publication).
  3. S. Lugomer, M. Stipancic, Fizika Alma Alta (in press).
  4. S. Lugomer, W. Stipancic, M. Kerenovic, in Ninth International Vacuum Congress and Fifth International Conference on Solid Surfaces, Madrid, 1983 (to be published).
  5. M. Ruiz-Urbieta et al., J. Opt. Soc. Am. 61, 351 (1971).
    [CrossRef]
  6. E. V. Browell, R. C. Anderson, J. Opt. Soc. Am. 65, 919 (1975).
    [CrossRef]
  7. H. K. Pulker, G. Paesold, E. Ritter, Appl. Opt. 15, 2986 (1976).
    [CrossRef] [PubMed]
  8. H. Basseches, IRW Trans. Component Parts CP-8, 51 (1961).
    [CrossRef]
  9. L.I. Maissel, in Proceedings, Ninth National Vacuum Symposium (1962), p. 169.
  10. C. V. Shenley, Corrosion Sci. 20, 467 (1980).
    [CrossRef]

1980 (1)

C. V. Shenley, Corrosion Sci. 20, 467 (1980).
[CrossRef]

1976 (1)

1975 (1)

1971 (1)

1962 (1)

L.I. Maissel, in Proceedings, Ninth National Vacuum Symposium (1962), p. 169.

1961 (1)

H. Basseches, IRW Trans. Component Parts CP-8, 51 (1961).
[CrossRef]

Anderson, R. C.

Basseches, H.

H. Basseches, IRW Trans. Component Parts CP-8, 51 (1961).
[CrossRef]

Browell, E. V.

Kerenovic, M.

S. Lugomer, W. Stipancic, M. Kerenovic, in Ninth International Vacuum Congress and Fifth International Conference on Solid Surfaces, Madrid, 1983 (to be published).

Kofstad, P.

P. Kofstad, High Temperature Oxidation of Metals (Wiley, New York, 1963).

Lugomer, S.

S. Lugomer, M. Stipancic, A. Persin, Thin Films (submitted for publication).

S. Lugomer, M. Stipancic, Fizika Alma Alta (in press).

S. Lugomer, W. Stipancic, M. Kerenovic, in Ninth International Vacuum Congress and Fifth International Conference on Solid Surfaces, Madrid, 1983 (to be published).

Maissel, L.I.

L.I. Maissel, in Proceedings, Ninth National Vacuum Symposium (1962), p. 169.

Paesold, G.

Persin, A.

S. Lugomer, M. Stipancic, A. Persin, Thin Films (submitted for publication).

Pulker, H. K.

Ritter, E.

Ruiz-Urbieta, M.

Shenley, C. V.

C. V. Shenley, Corrosion Sci. 20, 467 (1980).
[CrossRef]

Stipancic, M.

S. Lugomer, M. Stipancic, Fizika Alma Alta (in press).

S. Lugomer, M. Stipancic, A. Persin, Thin Films (submitted for publication).

Stipancic, W.

S. Lugomer, W. Stipancic, M. Kerenovic, in Ninth International Vacuum Congress and Fifth International Conference on Solid Surfaces, Madrid, 1983 (to be published).

Appl. Opt. (1)

Corrosion Sci. (1)

C. V. Shenley, Corrosion Sci. 20, 467 (1980).
[CrossRef]

IRW Trans. Component Parts (1)

H. Basseches, IRW Trans. Component Parts CP-8, 51 (1961).
[CrossRef]

J. Opt. Soc. Am. (2)

Proceedings, Ninth National Vacuum Symposium (1)

L.I. Maissel, in Proceedings, Ninth National Vacuum Symposium (1962), p. 169.

Other (4)

P. Kofstad, High Temperature Oxidation of Metals (Wiley, New York, 1963).

S. Lugomer, M. Stipancic, A. Persin, Thin Films (submitted for publication).

S. Lugomer, M. Stipancic, Fizika Alma Alta (in press).

S. Lugomer, W. Stipancic, M. Kerenovic, in Ninth International Vacuum Congress and Fifth International Conference on Solid Surfaces, Madrid, 1983 (to be published).

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Figures (1)

Fig. 1
Fig. 1

Fitting of the MBI reflection: D = d/2; variable parameter k2; correction of the TiO2 film thickness, vertical dashed line; amplitude convergence to the bulk value: horizontal dashed line.

Equations (14)

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R = ρ 12 2 + ρ 23 2 exp ( 4 υ 2 η ) + 2 ρ 12 ρ 23 exp ( 2 υ 2 η ) cos ( ϕ 23 + 2 u 2 η ) 1 + ρ 12 2 ρ 23 2 exp ( 4 υ 2 η ) + 2 ρ 12 ρ 23 exp ( 2 υ 2 η ) cos ( ϕ 23 + 2 u 2 η ) ,
η = ( 2 π d ) / λ 0 ,
ρ 23 2 = ( n 1 cos Θ 1 u 2 ) 2 + υ 2 2 ( n 1 cos Θ 1 + u 2 2 ) 2 + υ 2 2 , ρ 23 2 = ( u 2 u 3 ) 2 + ( υ 2 υ 3 ) 2 ( u 2 + u 3 ) 2 + ( υ 2 + υ 3 ) 2 ,
ϕ 12 = tan 1 [ 2 υ 2 n 1 cos Θ 1 u 2 2 + υ 2 2 n 1 cos Θ 1 ] ,
ϕ 23 = tan 1 [ 2 ( u 3 υ 2 u 2 υ 3 ) u 2 2 υ 3 2 + υ 2 2 υ 3 2 ] .
2 u 2 2 = c + ( c 2 + d ) 1 / 2 , 2 υ 2 2 = c + ( c 2 + d ) 1 / 2 ,
c = n 2 2 ( 1 k 2 2 ) n 1 2 sin 2 Θ 1 , 2 u 3 2 = a + ( a 2 + b ) 1 / 2 , d = 4 n 2 4 k 2 2 , 2 υ 3 2 = a + ( a 2 + b ) 1 / 2 ,
υ 2 2 = n 2 4 k 2 2 n 2 2 n 1 2 sin 2 Θ 1 ,
u 2 2 = n 2 2 n 1 sin 2 Θ 1 .
R ext = ρ 12 2 ρ 23 2 exp ( 2 β 2 ) ± ρ 12 ρ 23 exp ( β h ) 1 + ρ 12 2 ρ 23 2 ± ρ 12 ρ 23 exp ( β h ) ,
R max R min = 4 ρ 12 ρ 23 exp ( β h ) [ 1 ρ 12 2 ρ 23 2 exp ( 2 β h ) ] 1 4 ρ 12 2 ρ 23 2 exp ( 2 β h ) .
n 2 = 2.40 ; k 2 = 0.55 ; 0.060 ; 0.070 ; 0.075 ; n 3 = 2.5 ; k 3 = 2.3 .
β = 1 d 2 d 1 ln [ ( R max R min ) d 1 ( R max R min ) d 2 ] .
β = 1 d 2 d 1 ln [ ( S max S min ) d 1 ( S max S min ) d 2 ] .

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