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Previous: Change due to uncollimated light
Up: Calculation of Central Wavelength
Previous Page: Change due to uncollimated light
Next Page: Some comments
Temperature changes affect a filter's performance due to thermal expansion
and contraction of the materials used to construct them. Most filters are
designed and specified for operating at 23C, and deviations from
this value in the range of -60
C to +60
C will produce peak wavelength shifts approximately linear with temperature. The exact shift coefficient will depend on the particular design wavelength of the filter, and, typically, ranges between 0.2Å and 0.3Å per
C at 4000Å and 6500Å respectively. Bandwidth and peak transmission changes observed are relatively minor, of the order of 0.01Å per
C and 0.013Å per
C respectively.
The interference filters were specified for working at 10C, so temperatures significantly different from this will affect the effective central wavelength of the filters.
For example, at an ambient temperature of 0C, an
filter with specified central wavelength 6556Å will have an effective central wavelength of 6553Å.