Drude-Lorentz and Debye-Lorentz models for the dielectric constant of metals and water

Versión 1.3.0.0 (3,99 KB) por Bora Ung
Computes the complex permittivity of many metals and water with input wavelength
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Actualizado 31 ene 2012

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This code computes the complex dielectric constant (i.e. relative permittivity) and the refractive index of various metals using either the Lorentz-Drude (LD) or the Drude model (D) as a function of input light wavelength.

Additionally, it may compute the dielectric constant of pure water using a Debye-Lorentz model.

Choice of materials: silver, aluminum, gold, copper, chromium, nickel, tungsten, titanium, beryllium, palladium, platinum, triply distilled water.

Reference: Bora Ung and Yunlong Sheng, Interference of surface waves in a metallic nanoslit, Optics Express 15, 1182-1190 (2007).

Citar como

Bora Ung (2024). Drude-Lorentz and Debye-Lorentz models for the dielectric constant of metals and water (https://www.mathworks.com/matlabcentral/fileexchange/18040-drude-lorentz-and-debye-lorentz-models-for-the-dielectric-constant-of-metals-and-water), MATLAB Central File Exchange. Recuperado .

Compatibilidad con la versión de MATLAB
Se creó con R2007a
Compatible con cualquier versión
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Versión Publicado Notas de la versión
1.3.0.0

Updated the value of the physical constant "ehbar" to a more accurate one. Thanks to A. Webster for the tip!
1.2.0.0

A coding error in the previous version is corrected in this version.
1.1.0.0

Added a new material (pure water) whose dielectric constant is computed via the Debye-Lorentz model. References are also updated.
1.0.0.0

Added some small changes to improve the overall performance. Included a screenshot to show the comparison between the Drude, Lorentz-Drude and exact experimental values of the permittivity of silver.