Wolfgang Sellmeier was a German theoretical physicist who made major contributions to the understanding of the interactions between light and matter.[1] In 1872 he published his seminal work Ueber die durch die Aetherschwingungen erregten Mitschwingungen der Körpertheilchen und deren Rückwirkung auf die ersteren, besonders zur Erklärung der Dispersion und ihrer Anomalien.[2] Before this publication, physicists tried to understand light as a periodic perturbation of an invisible substance that spanned the entire universe: the ether.[1]
The interaction of light with the particles that make up ordinary matter was not yet taken into account when explaining optical phenomena. In his 1872 publication, Sellmeier conjectured that light-matter interactions in the form of covibrations of the particles that light impinges upon are responsible for the response of matter to light. In particular, his theory was meant to explain the observed 'anomalous' dispersion by Christiansen and Kundt.[3][4] Sellmeier's model implied a relation between the refractive index of a material and the light that passes through this material, which is determined by the Sellmeier equation, which was named after him. This equation is still used today in order to determine the dispersion characteristics of materials, far away from absorption peaks in their spectrum.[5][6][7]
Sellmeier's way of approaching light-matter interaction was swiftly adopted by the physics community and soon formed the basis of theories of dispersion developed by – among others - Helmholtz, Voigt and Drude.[1]
See also
References
- 1 2 3 Jordi Taltavull, M., ANNALEN DER PHYSIK 2018, 530, 1800104. https://doi.org/10.1002/andp.201800104
- ↑ Sellmeier, W. (1872), Ueber die durch die Aetherschwingungen erregten Mitschwingungen der Körpertheilchen und deren Rückwirkung auf die ersteren, besonders zur Erklärung der Dispersion und ihrer Anomalien. Ann. Phys., 223: 386-403. https://doi.org/10.1002/andp.18722231105
- ↑ Christiansen, C. (1870), Ueber die Brechungsverhältnisse einer weingeistigen Lösung des Fuchsins. Ann. Phys., 217: 479-480. https://doi.org/10.1002/andp.18702171118
- ↑ Kundt, A. (1871), Ueber anomale Dispersion. Ann. Phys., 220: 128-137. https://doi.org/10.1002/andp.18712200907
- ↑ Ghosh, G. (1995), Sellmeier Coefficients and Chromatic Dispersions for Some Tellurite Glasses. Journal of the American Ceramic Society, 78: 2828-2830. https://doi.org/10.1111/j.1151-2916.1995.tb08060.x
- ↑ Kiyoshi Kato, Kentaro Miyata, and Valentin Petrov, "Refined Sellmeier equations for AgGaSe2 up to 18 µm," Appl. Opt. 60, 805-808 (2021)
- ↑ Kiyoshi Kato, Nobuhiro Umemura, Takayuki Okamoto, Kentaro Miyata, "Updated Sellmeier equations of β-BaB2O4," Proc. SPIE 11670, Nonlinear Frequency Generation and Conversion: Materials and Devices XX, 116701E (5 March 2021); https://doi.org/10.1117/12.2576038