M. I. Aroyo scite author profile

Since the discovery of topological insulators and semimetals, there has been much research into predicting and experimentally discovering distinct classes of these materials, in which the topology of electronic states leads to robust surface states and electromagnetic responses. This apparent success, however, masks a fundamental shortcoming: topological insulators represent only a few hundred of the 200,000 stoichiometric compounds in material databases. However, it is unclear whether this low number is indicative of the esoteric nature of topological insulators or of a fundamental problem with the current approaches to finding them. Here we propose a complete electronic band theory, which builds on the conventional band theory of electrons, highlighting the link between the topology and local chemical bonding. This theory of topological quantum chemistry provides a description of the universal (across materials), global properties of all possible band structures and (weakly correlated) materials, consisting of a graph-theoretic description of momentum (reciprocal) space and a complementary group-theoretic description in real space. For all 230 crystal symmetry groups, we classify the possible band structures that arise from local atomic orbitals, and show which are topologically non-trivial. Our electronic band theory sheds new light on known topological insulators, and can be used to predict many more.

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Bilbao Crystallographic Server: I. Databases and crystallographic computing programs

Aroyo¹,

Perez-Mato²,

Capillas³

et al. 2006

1,025

703

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Bilbao Crystallographic Server. II. Representations of crystallographic point groups and space groups

Aroyo

Kirov

Capillas

et al. 2006

Acta Crystallogr A Found Crystallogr

921

607

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The Bilbao Crystallographic Server is a web site with crystallographic programs and databases freely available on-line (http://www.cryst.ehu.es). The server gives access to general information related to crystallographic symmetry groups (generators, general and special positions, maximal subgroups, Brillouin zones etc.). Apart from the simple tools for retrieving the stored data, there are programs for the analysis of group-subgroup relations between space groups (subgroups and supergroups, Wyckoff-position splitting schemes etc.). There are also software packages studying specific problems of solid-state physics, structural chemistry and crystallography. This article reports on the programs treating representations of point and space groups. There are tools for the construction of irreducible representations, for the study of the correlations between representations of group-subgroup pairs of space groups and for the decompositions of Kronecker products of representations.

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Bilbao Crystallographic Server : Useful Databases and Tools for Phase-Transition Studies

et al. 2003

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AMPLIMODES: symmetry-mode analysis on the Bilbao Crystallographic Server

et al. 2009

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AMPLIMODES is a computer program available on the Bilbao Crystallographic Server that can perform a symmetry‐mode analysis of any distorted structure of displacive type. The analysis consists in decomposing the symmetry‐breaking distortion present in the distorted structure into contributions from different symmetry‐adapted modes. Given the high‐ and the low‐symmetry structures, AMPLIMODES determines the atomic displacements that relate them, defines a basis of symmetry‐adapted modes, and calculates the amplitudes and polarization vectors of the distortion modes of different symmetry frozen in the structure. The program uses a mode parameterization that is as close as possible to the crystallographic conventions, expressing all quantities for the asymmetric unit of the low‐symmetry structure. Distorted structures are often related to their higher‐symmetry counterparts by temperature‐ and/or pressure‐driven phase transitions, ferroic phase transitions being a particular example. The automatic symmetry‐mode analysis performed by AMPLIMODES can be very useful for establishing the driving mechanisms of such structural phase transitions or the fundamental instabilities at the origin of the distorted phases.

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M. I. Aroyo

Topological quantum chemistry

Bilbao Crystallographic Server: I. Databases and crystallographic computing programs

Bilbao Crystallographic Server. II. Representations of crystallographic point groups and space groups

Bilbao Crystallographic Server : Useful Databases and Tools for Phase-Transition Studies

AMPLIMODES: symmetry-mode analysis on the Bilbao Crystallographic Server

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