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Transformation optics is applied to interpret the dispersive nature of materials via changes in geometry, providing an alternative methodology for dispersion correction. An example is proposed and analyzed to demonstrate the effectiveness of the proposed technique.
The advent of Transformation Optics (TO) has led to a resurgence of interest in gradient-index (GRIN) optics. Furthermore, it has been noted that TO-derived lenses often possess better performance than those arrived at through more traditional GRIN design techniques. Due to the dispersive nature of optical materials, lenses are often combined into achromatic pairs to correct for chromatic aberrations...
Transformation Optics (TO) has enabled new methodologies for the design and specification of gradient-index (GRIN) lenses for radio-frequency and optical applications by linking refractive index gradients to a mathematically equivalent change in geometry in an alternative (virtual) space. In this work, concepts from classical optical lens design are interpreted through TO. This is demonstrated by...
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