Date:
Thu, 20/06/201312:30-13:30
Location:
Danciger B building, Seminar room
"Chiral Anomaly and Classical Negative Magnetoresistance of Weyl Metal":
Materials with nontrivial topological properties have attracted considerable interest after the discovery of topological insulators .
One type of such materials is the so-called Weyl semimetals, characterized by the presence of points of band touching(Diracpoints).
Here, we study the metallic counterparts of these materials-the Weyl metals, where Dirac points are hidden inside a Fermi surface [1]. Fermi surfaces in these systems possess nonzero fluxes of the Berry curvature. We show that these materials may exhibit large classical negative magnetoresistance with unusual anisotropy. We also find a new type of plasma waves in these systems.
These phenomena are consequences of chiral anomaly in electron transport theory.
Materials with nontrivial topological properties have attracted considerable interest after the discovery of topological insulators .
One type of such materials is the so-called Weyl semimetals, characterized by the presence of points of band touching(Diracpoints).
Here, we study the metallic counterparts of these materials-the Weyl metals, where Dirac points are hidden inside a Fermi surface [1]. Fermi surfaces in these systems possess nonzero fluxes of the Berry curvature. We show that these materials may exhibit large classical negative magnetoresistance with unusual anisotropy. We also find a new type of plasma waves in these systems.
These phenomena are consequences of chiral anomaly in electron transport theory.