http://os4.transylvania4all.com/index.php/3 <p>M. Giloan, R. Gutt and G. Saplacan<br>1. Company for Applied Informatics, Republicii nr. 107, 400489 Cluj-Napoca, Romania.<br>Abstract: Two transformation-optics inspired flat lenses are used to build up an optical system capable to transpose an area surrounding the object focal point in a magnified area surrounding the image focal point.<br>Transformation-optics approach enabled the design of anisotropic and inhomogeneous media, capable to manipulate wave paths and wave vectors [1-3]. Using specific coordinate transformations as proposed in [1], we design an optical imaging system based on two transformation-optics inspired flat lenses which provides sub-wavelength resolution. The key features of such a converging lens is that it provides a perfect convergence into its focal point of a light beam parallel to its optical axis and captures high spatial frequencies waves without converting them in evanescent waves.<br>A converging lens of thickness d and focal distance φ embedded in an isotropic and homogeneous medium having the same relative permittivity and permeability, ε=μ=m, is generated by the following transformation function z = h(x, y) z of the z-coordinate, with h(x, y) = m[δ−γ (φ2+x2+ y2 )1/2], where δ=1+φ/d and γ=1/d. The general outline of the transformed space is represented in Figure 1(a), in which the curved lines represent the transformed z-coordinate and the red area denotes a compression of the space with m = 4/3 and the blue area denote a dilation of the space for m = 1/3.</p> en-US GSaplacan@cianet.ro (G. Saplacan) Thu, 14 Nov 2019 12:47:46 +0000 OJS 3.1.2.1 http://blogs.law.harvard.edu/tech/rss 60