Affiliation:
1. School of Electrical and Computer Engineering Georgia Institute of Technology Atlanta Georgia 30332‐0250 USA
2. Georgia Tech‐CNRS IRL2958 Georgia Tech‐Europe 2 Rue Marconi Metz 57070 France
Abstract
Abstract2D diffraction gratings based on Gauss lattices are a class of nonperiodic lattice in which the sites are located at with , , and orthogonal primitive vectors in the plane, and the lattice constant. Gauss lattices are treated for various orders , and discuss applications for gratings separable in the and directions. These gratings, while geometrically very simple, produce complex pseudorandom diffraction patterns, though they exhibit rotational invariance and strong correlations along the and directions. Then how to generalize the approach is discussed to attain nonseparable gratings where such features are suppressed. The result is an intensity distribution like that of diffuse light, the effect originating in the breaking of the hidden translational invariance of the Gauss lattice.
Funder
Conseil régional du Grand Est