Nb2O5 Study

In Sep 2011, an equipment manufacturer (company 'X') asked us to deduce n,k for Nb2O5 deposited in a large coating chamber. The spectra suggested highly absorbing films with n values far below expected values.

Needing a comparison, we found an n vs. wavelength graph in Sullivan et. al., Appl Optics 39, pg 161 (2000). In what follows this is labeled as 'NRC' for National Research Council in Ottawa (a FilmStar user, by the way).

When we considered the measured spectra we realized that peak analysis (envelope method) would not work and thought to apply a dispersive function previously utilized for highly absorbing TiO2 (cold deposited). Using both reflectance and transmittance data, we arrived at reasonably good fits as shown below.

Nb2O5
Green line shows ideal 420 nm Nb2O5 spectrum using NRC values

Nb2O5

The red lines show the generalized Cauchy (FilmStar function $CYGENK2) fit. Film thickness is 420 nm and coefficients are given below. Increased absorption towards long wavelength is not expected in oxides. We expect that these initial results will be much improved upon in coming weeks.

Nb2O5 X

$CYGENK2
9.887885
-8.00851
1.426565E-3
1.335921E-2
-4.772016
-2.228506
-3.061379
-0.2193917

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Last updated on January 31, 2023