New math tool speeds up design of metamaterials and optical devices
Researchers have developed a faster computational method to predict how electromagnetic waves behave in complex materials used in advanced optics and wireless systems. The technique cuts calculation time for engineers designing next-generation devices, potentially accelerating product development cycles in telecom and sensing industries.
Originaltitel: On spectral enclosures for Maxwell’s equations with the Drude-Lorentz model
<p>In this paper, we compare two approaches to derive spectral enclosures for Maxwell’s equations with the Drude–Lorentz model in possibly unbounded domains. The enclosures can be computed in the infinite-dimensional case as well as for the matrix-valued function obtained after a discretization. The enclosures are minimal given only the numerical ranges of the operator coefficients and we compare in the case of purely imaginary poles the derived enclosures with enclosures from the literature.</p>