Litcius/Paper detail

Fragile Phases as Affine Monoids: Classification and Material Examples

Zhi-Da Song, Luis Elcoro, Yuan-Feng Xu, Nicolas Regnault, B. Andrei Bernevig

2020Physical Review X72 citationsDOIOpen Access PDF

Abstract

Topological phases in electronic structures contain a new type of topology, called fragile, which can arise, for example, when an elementary band representation (atomic limit band) splits into a particular set of bands. For the first time, we obtain a complete classification of the fragile topological phases, which can be diagnosed by symmetry eigenvalues, to find an incredibly rich structure that far surpasses that of stable or strong topological states. We find and enumerate hundreds of thousands of different fragile topological phases diagnosed by symmetry eigenvalues, and we link the mathematical structure of these phases to that of affine monoids in mathematics. Furthermore, for the first time, we predict and calculate (hundreds of realistic) materials where fragile topological bands appear, and we showcase the very best ones.

Topics & Concepts

Affine transformationRepresentation (politics)Symmetry (geometry)Limit (mathematics)Topology (electrical circuits)Set (abstract data type)PhysicsType (biology)Symmetry groupSymmetry protected topological orderTopological spaceTheoretical physicsSequence (biology)MathematicsTopological data analysisTopological entropy in physicsTopological algebraPure mathematicsTopological quantum numberAffine plane (incidence geometry)Topological Materials and PhenomenaSurface and Thin Film Phenomena2D Materials and Applications