Counterposition and negative phase velocity in uniformly moving dissipative materials
نویسندگان
چکیده
The Lorentz transformations of electric and magnetic fields were implemented to study (i) the refraction of linearly polarized plane waves into a half–space occupied by a uniformly moving material, and (ii) the traversal of linearly polarized Gaussian beams through a uniformly moving slab. Motion was taken to occur tangentially to the interface(s) and in the plane of incidence. The moving materials were assumed to be isotropic, homogeneous, dissipative dielectric materials from the perspective of a co–moving observer. Two different moving materials were considered: from the perspective of a co– moving observer, material A supports planewave propagation with only positive phase velocity, whereas material B supports planewave propagation with both positive and negative phase velocity, depending on the polarization state. For both materials A and B, the sense of the phase velocity and whether or not counterposition occurred, as perceived by a nonco–moving observer, could be altered by varying the observer’s velocity. Furthermore, the lateral position of a beam upon propagating through a uniformly moving slab made of material A, as perceived by a nonco–moving observer, could be controlled by varying the observer’s velocity. In particular, at certain velocities, the transmitted beam emerged from the slab laterally displaced in the direction opposite to the direction of incident beam. The transmittances of a uniformly moving slab made of material B were very small and the energy density of the transmitted beam was largely concentrated in the direction normal to the slab, regardless of the observer’s velocity. PACS numbers: 03.30.+p, 03.50.De, 41.20.Jb
منابع مشابه
Negative refraction, negative phase velocity, and counterposition in bianisotropic metamaterials with chirality
The planewave response of bianisotropic materials generally cannot be characterized by a single scalar index, as directionality of energy flow and multiple wavevectors need to be considered. This is especially significant for bianisotropic metamaterials which support negative refraction, negative phase velocity, and counterposition. By means of a numerical example based on a commonly–studied bi...
متن کاملNegative refraction, negative phase velocity, and counterposition
The planewave response of a linear passive material generally cannot be characterized by a single scalar refractive index, as directionality of energy flow and multiple wavevectors may need to be considered. This is especially significant for materials which support negative refraction, negative phase velocity, and counterposition. By means of a numerical example based on a commonly studied bia...
متن کاملNegative and positive refraction are not Lorentz covariant
The refraction of linearly polarized plane waves into a half–space occupied by a material moving at constant velocity was studied by directly implementing the Lorentz transformations of electric and magnetic fields. From the perspective of a co–moving observer, the moving material was a spatially local, pseudochiral omega material. Numerical studies revealed that whether or not negative refract...
متن کاملA New Condition to Identify Isotropic Dielectric–magnetic Materials Displaying Negative Phase Velocity
Non–dissipative mediums with both simultaneously negative permittivity and permeability were first investigated by Veselago [1] in 1968. These mediums support electromagnetic wave propagation in which the phase velocity is antiparallel to the direction of energy flow, and other unusual electromagnetic effects such as the reversal of the Doppler effect and Cerenkov radiation. After the publicati...
متن کاملSimultaneous Negative– and Positive–phase–velocity Propagation in an Isotropic Chiral Medium
The phase velocity of plane waves propagating in an isotropic chiral medium can be simultaneously positive for left–circularly polarized light and negative for right–circularly polarized light (or vice versa). The constitutive parameter regimes supporting this phenomenon are established for nondissipative and dissipative mediums. The boundary between positive and negative phase velocity is char...
متن کامل