Add to ORKGA reexamination of the Clausius-Mossotti relation in which material with both electric and magnetic responses yields surprising results. Materials with indices near zero and with real parts less than zero, that is the real part of both the permeability and permittivity are negative, are found to emerge from the interaction of electric and magnetic responses in a self-consistent theory. The new results point the way to artificial and natural materials with exotic responses. A simulation with 10^10 particles shows good agreement with the analytical results
Employing a recently developed cluster expansion for the effective dielectric constant of a suspensi...
Metamaterials are artificial materials constructed and designed to provide unique optical properties...
The force density induced by electromagnetic fields in electrically and magnetically polarizable med...
The interaction of light and matter is a widely studied field in physics: Both quantum mechanical an...
Macroscopic force density imposed on a linear isotropic magnetic dielectric medium by an arbitrary e...
Macroscopic force density imposed on a linear isotropic magnetic dielectric medium by an arbitrary e...
Macroscopic force density imposed on a linear isotropic magnetic dielectric medium by an arbitrary e...
Macroscopic force density imposed on a linear isotropic magnetic dielectric medium by an arbitrary e...
Metamaterials with magnetic properties have been widely investigated with rather complex two- and th...
Copyright © 2011 American Physical SocietyRecent work by Philbin [ New J. Phys. 12 123008 (2010)] ha...
Metamaterials with magnetic properties have been widely investigated with rather complex two- and th...
We predict that real small dielectric particles made of non-magnetic materials present non-conventio...
Metamaterials with magnetic properties have been widely investigated with rather complex two- and th...
When new composite optical materials are developed experimentally or studied in numerical simulation...
The electromagnetic properties of a material arise from its intrinsic microstructure, which may ofte...
Employing a recently developed cluster expansion for the effective dielectric constant of a suspensi...
Metamaterials are artificial materials constructed and designed to provide unique optical properties...
The force density induced by electromagnetic fields in electrically and magnetically polarizable med...
The interaction of light and matter is a widely studied field in physics: Both quantum mechanical an...
Macroscopic force density imposed on a linear isotropic magnetic dielectric medium by an arbitrary e...
Macroscopic force density imposed on a linear isotropic magnetic dielectric medium by an arbitrary e...
Macroscopic force density imposed on a linear isotropic magnetic dielectric medium by an arbitrary e...
Macroscopic force density imposed on a linear isotropic magnetic dielectric medium by an arbitrary e...
Metamaterials with magnetic properties have been widely investigated with rather complex two- and th...
Copyright © 2011 American Physical SocietyRecent work by Philbin [ New J. Phys. 12 123008 (2010)] ha...
Metamaterials with magnetic properties have been widely investigated with rather complex two- and th...
We predict that real small dielectric particles made of non-magnetic materials present non-conventio...
Metamaterials with magnetic properties have been widely investigated with rather complex two- and th...
When new composite optical materials are developed experimentally or studied in numerical simulation...
The electromagnetic properties of a material arise from its intrinsic microstructure, which may ofte...
Employing a recently developed cluster expansion for the effective dielectric constant of a suspensi...
Metamaterials are artificial materials constructed and designed to provide unique optical properties...
The force density induced by electromagnetic fields in electrically and magnetically polarizable med...