Abstract: A thermally stable etalon filter includes a pair of spaced apart mirrors defining a Fabry-Perot cavity and an optical medium disposed in the cavity. The optical medium is comprised two optically transparent materials, one having a coefficient of thermal expansion that is countervailing to the coefficient of thermal change of refractive index of the other. The thicknesses of the two materials are selected so that the thermal expansion of the optical medium offsets the thermal change in the refractive index, resulting in an etalon filter that is substantially immune to variations caused by temperature. In a further embodiment, the optical medium is comprised of a single material having having a coefficient of thermal expansion and a coefficient of thermal change in refractive index that are functionally opposite. These material properties lead to a beam insertion angle at which the beam refraction is not affected by temperature fluctuations in the material.