Add to ORKGFrequency dependence of the permittivity and permeability is inevitable in metamaterial applications such as cloaking and perfect lenses. In this paper, Herglotz functions are used as a tool to construct sum rules from which we derive physical bounds suited for metamaterial applications, where the material parameters are often designed to be negative or near zero in the frequency band of interest. Several sum rules are presented that relate the temporal dispersion of the material parameters with the difference between the static and instantaneous parameter values, which are used to give upper bounds on the bandwidth of the application. This substantially advances the understanding of the behavior of metamaterials with extraordinary material...
High-impedance surfaces are artificial surfaces synthesized from periodic structures. The high imped...
Due to the presence of internal structures, metamaterials, a new class of artificial materials, can ...
The objective of this paper is to give an overview of some recently developed sum rules and physical...
Frequency dependence of the permittivity and permeability is inevitable in metamaterial applications...
Metamaterial applications such as cloaking, perfect lenses, and artificial permeability are restrict...
The frequency dependence of the permittivity, permeability, and index of refraction restrict metamat...
Bandwidth is an important parameter in many metamaterial applications. It has been shown that Herglo...
Physical bounds in electromagnetic field theory have been of interest for more than a decade. Consid...
Performance limits for electromagnetic devices can be determined from sum rules and optimization ove...
Sum rules are useful in many branches of physics and engineering as they relate all spectrum paramet...
Superluminal transmission of electromagnetic waves is usually observed in a narrow bandwidth range a...
Herglotz functions inevitably appear in pure mathematics, mathematical physics, and engineering with...
Abstract. The set of realizable refractive indices as a function of frequency is considered. For pas...
Metamaterials are composite materials acting as effectively continuous media, which are capable of r...
This paper presents a convex optimization approach to study optimal realizations of passive electrom...
High-impedance surfaces are artificial surfaces synthesized from periodic structures. The high imped...
Due to the presence of internal structures, metamaterials, a new class of artificial materials, can ...
The objective of this paper is to give an overview of some recently developed sum rules and physical...
Frequency dependence of the permittivity and permeability is inevitable in metamaterial applications...
Metamaterial applications such as cloaking, perfect lenses, and artificial permeability are restrict...
The frequency dependence of the permittivity, permeability, and index of refraction restrict metamat...
Bandwidth is an important parameter in many metamaterial applications. It has been shown that Herglo...
Physical bounds in electromagnetic field theory have been of interest for more than a decade. Consid...
Performance limits for electromagnetic devices can be determined from sum rules and optimization ove...
Sum rules are useful in many branches of physics and engineering as they relate all spectrum paramet...
Superluminal transmission of electromagnetic waves is usually observed in a narrow bandwidth range a...
Herglotz functions inevitably appear in pure mathematics, mathematical physics, and engineering with...
Abstract. The set of realizable refractive indices as a function of frequency is considered. For pas...
Metamaterials are composite materials acting as effectively continuous media, which are capable of r...
This paper presents a convex optimization approach to study optimal realizations of passive electrom...
High-impedance surfaces are artificial surfaces synthesized from periodic structures. The high imped...
Due to the presence of internal structures, metamaterials, a new class of artificial materials, can ...
The objective of this paper is to give an overview of some recently developed sum rules and physical...