27,870 research outputs found
New classes of topological crystalline insulators with unpinned surface Dirac cones
We theoretically predict two new classes of three-dimensional topological
crystalline insulators (TCIs), which have an odd number of unpinned surface
Dirac cones protected by crystal symmetries. The first class is protected by a
single glide plane symmetry; the second class is protected by a composition of
a twofold rotation and time-reversal symmetry. Both classes of TCIs are
characterized by a quantized Berry phase associated with surface states
and a topological invariant associated with the bulk bands. In the
presence of disorder, these TCI surface states are protected against
localization by the average crystal symmetries, and exhibit critical
conductivity in the universality class of the quantum Hall plateau transition.
These new TCIs exist in time-reversal-breaking systems with or without
spin-orbital coupling, and their material realizations are discussed.Comment: 4 pages plus supplementary material
From Stereogram to Surface: How the Brain Sees the World in Depth
When we look at a scene, how do we consciously see surfaces infused with lightness and color at the correct depths? Random Dot Stereograms (RDS) probe how binocular disparity between the two eyes can generate such conscious surface percepts. Dense RDS do so despite the fact that they include multiple false binocular matches. Sparse stereograms do so even across large contrast-free regions with no binocular matches. Stereograms that define occluding and occluded surfaces lead to surface percepts wherein partially occluded textured surfaces are completed behind occluding textured surfaces at a spatial scale much larger than that of the texture elements themselves. Earlier models suggest how the brain detects binocular disparity, but not how RDS generate conscious percepts of 3D surfaces. A neural model predicts how the layered circuits of visual cortex generate these 3D surface percepts using interactions between visual boundary and surface representations that obey complementary computational rules.Air Force Office of Scientific Research (F49620-01-1-0397); National Science Foundation (EIA-01-30851, SBE-0354378); Office of Naval Research (N00014-01-1-0624
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