TY - JOUR
T1 - The magnetoelectric coupling in electrodynamics
AU - Martín-Ruiz, A.
AU - Cambiaso, M.
AU - Urrutia, L. F.
N1 - Funding Information:
LFU takes the opportunity to thank the organizers of the Julian Schwinger Centennial Conference and Workshop for a wonderful meeting honoring the great physicist and scholar. LFU also acknowledges support from the CONACyT (México) project No. 237503. AM was supported by the CONACyT postdoctoral Grant No. 234774.
Publisher Copyright:
© 2019 World Scientific Publishing Company.
PY - 2019/10/10
Y1 - 2019/10/10
N2 - We explore a model akin to axion electrodynamics in which the axion field (t,x) rather than being dynamical is a piecewise constant effective parameter encoding the microscopic properties of the medium inasmuch as its permittivity or permeability, defining what we call a-medium. This model describes a large class of phenomena, among which we highlight the electromagnetic response of materials with topological order, like topological insulators for example. We pursue a Green's function formulation of what amounts to typical boundary-value problems of-media, when external sources or boundary conditions are given. As an illustration of our methods, which we have also extended to ponderable media, we interpret the constant as a novel topological property of vacuum, a so called-vacuum, and restrict our discussion to the cases where the permittivity and the permeability of the media is one. In this way we concentrate upon the effects of the additional coupling which induce remarkable magnetoelectric effects. The issue of boundary conditions for electromagnetic radiation is crucial for the occurrence of the Casimir effect, therefore we apply the methods described above as an alternative way to approach the modifications to the Casimir effect by the inclusion of topological insulators.
AB - We explore a model akin to axion electrodynamics in which the axion field (t,x) rather than being dynamical is a piecewise constant effective parameter encoding the microscopic properties of the medium inasmuch as its permittivity or permeability, defining what we call a-medium. This model describes a large class of phenomena, among which we highlight the electromagnetic response of materials with topological order, like topological insulators for example. We pursue a Green's function formulation of what amounts to typical boundary-value problems of-media, when external sources or boundary conditions are given. As an illustration of our methods, which we have also extended to ponderable media, we interpret the constant as a novel topological property of vacuum, a so called-vacuum, and restrict our discussion to the cases where the permittivity and the permeability of the media is one. In this way we concentrate upon the effects of the additional coupling which induce remarkable magnetoelectric effects. The issue of boundary conditions for electromagnetic radiation is crucial for the occurrence of the Casimir effect, therefore we apply the methods described above as an alternative way to approach the modifications to the Casimir effect by the inclusion of topological insulators.
KW - -electrodynamics
KW - Casimir effect
KW - Magnetoelectric effect
KW - topological insulators
UR - http://www.scopus.com/inward/record.url?scp=85073719825&partnerID=8YFLogxK
U2 - 10.1142/S0217751X19410021
DO - 10.1142/S0217751X19410021
M3 - Article
AN - SCOPUS:85073719825
SN - 0217-751X
VL - 34
JO - International Journal of Modern Physics A
JF - International Journal of Modern Physics A
IS - 28
M1 - 1941002
ER -