707 research outputs found
Reversality of optical interactions in noncentrosymmetric media
The interaction of an electromagnetic wave with a noncentrosymmetric crystal is not necessarily time reversible, and the departure from reversality may be seen in nonlocal (wave-vector linear) phenomena. However, relativistic symmetry with respect to simultaneous time and space inversion is always preserved in optics
Localization of Electromagnetic Fields in Disordered Fano Metamaterials
We present the first study of disorder in planar metamaterials consisting of
strongly interacting metamolecules, where coupled electric dipole and magnetic
dipole modes give rise to a Fano-type resonant response and show that
positional disorder leads to light localization inherently linked to collective
magnetic dipole excitations. We demonstrate that the magnetic excitation
persists in disordered arrays and results in the formation of "magnetic
hot-spots"
Intermediate phase in the spiral antiferromagnet Ba_2CuGe_2O_7
The magnetic compound Ba_2CuGe_2O_7 has recently been shown to be an
essentially two-dimensional spiral antiferromagnet that exhibits an
incommensurate-to-commensurate phase transition when a magnetic field applied
along the c-axis exceeds a certain critical value H_c. The T=0 dynamics is
described here in terms of a continuum field theory in the form of a nonlinear
sigma model. We are thus in a position to carry out a complete calculation of
the low-energy magnon spectrum for any strength of the applied field throughout
the phase transition. In particular, our spin-wave analysis reveals
field-induced instabilities at two distinct critical fields H_1 and H_2 such
that H_1 < H_c < H_2. Hence we predict the existence of an intermediate phase
whose detailed nature is also studied to some extent in the present paper.Comment: 15 pages, 11 figures, 2 table
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