Add to ORKGThis work is concerned with the experimental demonstration of a dual-band negative index metamaterial. The sample is double-negative (showing both a negative effective permeability and a negative effective permittivity) for wavelengths between 799 and 818 nm of linearly polarized light with a real part of refractive index of about -1.0 at 813 nm; the ratio -Re(n)/Im(n) is close to 1.3 at that wavelength. For an orthogonal polarization, the same sample also exhibits a negative refractive index in the visible (at 772 nm). The spectroscopic measurements of the material are in good agreement with the results obtained from a finite element electromagnetic solver for the actual geometry of the fabricated sample at both polarizations
Metamaterials are designed to have structures that make available properties not found in Nature. Th...
Research of metamaterials focuses on unprecedented optical properties that may be obtained from comp...
Negative index metamaterials have revolutionized the field of photonics because of their unconventio...
This work is concerned with the experimental demonstration of a dual-band negative index metamateria...
We demonstrate a polarization independent negative-index metamaterial (NIM) at microwave frequencies...
Refractive index is determined by permittivity ϵ and permeability μ, where permittivity å is t...
Cataloged from PDF version of article.We demonstrate a polarization independent negative-index meta...
Metamaterials are artificially engineered structures that have properties, such as a negative refrac...
Artifi cially engineered metamaterials are now demonstrating unprecedented electromagnetic propertie...
We present simulation results of a design for negative index materials that uses magnetic resonators...
Composite structures based on metal open rings and thin wires are well established, for obtaining ef...
Metamaterials are materials with artificial electromagnetic properties defined by their sub-waveleng...
Metamaterials are materials with artificial electromagnetic properties defined by their sub-waveleng...
In recent years, there has been a burgeoning interest in rapidly growing field of metamaterials due ...
Metamaterials are materials with artificial electromagnetic properties defined by their sub-waveleng...
Metamaterials are designed to have structures that make available properties not found in Nature. Th...
Research of metamaterials focuses on unprecedented optical properties that may be obtained from comp...
Negative index metamaterials have revolutionized the field of photonics because of their unconventio...
This work is concerned with the experimental demonstration of a dual-band negative index metamateria...
We demonstrate a polarization independent negative-index metamaterial (NIM) at microwave frequencies...
Refractive index is determined by permittivity ϵ and permeability μ, where permittivity å is t...
Cataloged from PDF version of article.We demonstrate a polarization independent negative-index meta...
Metamaterials are artificially engineered structures that have properties, such as a negative refrac...
Artifi cially engineered metamaterials are now demonstrating unprecedented electromagnetic propertie...
We present simulation results of a design for negative index materials that uses magnetic resonators...
Composite structures based on metal open rings and thin wires are well established, for obtaining ef...
Metamaterials are materials with artificial electromagnetic properties defined by their sub-waveleng...
Metamaterials are materials with artificial electromagnetic properties defined by their sub-waveleng...
In recent years, there has been a burgeoning interest in rapidly growing field of metamaterials due ...
Metamaterials are materials with artificial electromagnetic properties defined by their sub-waveleng...
Metamaterials are designed to have structures that make available properties not found in Nature. Th...
Research of metamaterials focuses on unprecedented optical properties that may be obtained from comp...
Negative index metamaterials have revolutionized the field of photonics because of their unconventio...