Benny Milgrom

TL;DR: In this article, a novel concept of designing silicon photonics metamaterials for perfect near-infrared light absorption is proposed, which shows combined vortex and crossed-junction two-dimensional waveguide-like flows as outcomes of optical field singularities.

TL;DR: This paper considers the problem of estimating the three-dimensional states of a salvo of thrusting/ballistic endo-atmospheric objects using two-dimensional Cartesian measurements from the focal plane array (FPA) of a single fixed optical sensor, and proposes a two-step methodology that can be used for impact point prediction.

TL;DR: Several approaches with different parameter vectors to solve the trajectory estimation and impact point prediction (IPP) with measurements starting after the launch time are investigated and the maximum likelihood estimator of the considered motion parameter vectors is developed.

TL;DR: Simulation results have been conducted to evaluate the measurement extraction performance including the probability of resolving the two hypotheses, and the efficiency and unbiasedness of the target location estimates for the selected hypothesis using different hypothesis detection schemes.

TL;DR: In this paper, the authors proposed a new approach for designing photodetectors with an absorber layer as thin as those in respective resonant cavity-enhanced ones, but concurrently, the overall detector thickness would be much thinner and top-performing.