Atoms to topological electronic materials: a bedtime story for beginners | SpringerLink
Fat Brain Tobbles Neo – Babies in Bloom
Topological active matter | Nature Reviews Physics
A Step beyond the Feltham–Enemark Notation: Spectroscopic and Correlated ab Initio Computational Support for an Antiferromagnetically Coupled M(II)–(NO)− Description of Tp*M(NO) (M = Co, Ni) | Journal of the American Chemical Society
Full article: The Dirac equation as a model of topological insulators
First observation of spin-textured helical Dirac cone in Topological Insulators Bi Te Bi Se
Topological aspects of antiferromagnets - IOPscience
Experimental and Theoretical Mössbauer Study of an Extended Family of [Fe8(μ4-O)4(μ-4-R-px)12X4] Clusters | Inorganic Chemistry
Topologically-non-trivial phases in condensed matter physics: from 1D spin chains, to 2D Chern insulators, to today
Topological aspects of antiferromagnets - IOPscience
Topological photonics | Nature Photonics
Spin Balence Baskets Homme De Couleur Noir En Destockage 1642374-noir00 - Modz
1PC Skip Ball Outdoor Fun Toy Ball Classical Skipping Toy Exercise coordination and balance hop jump playground may toy ball - AliExpress Toys & Hobbies
Low-energy quantum fluctuations and frustrated magnetism in rare-earth-based Shastry-Sutherland lattices: Insights on the CaCo2Al8 structure type antiferromagnets - ScienceDirect
Atoms to topological electronic materials: a bedtime story for beginners | SpringerLink
Experimental signatures of the chiral anomaly in Dirac–Weyl semimetals | Nature Reviews Physics
arXiv:1601.00986v2 [cond-mat.mes-hall] 26 Oct 2016
Topological quantum matter to topological phase conversion: Fundamentals, materials, physical systems for phase conversions, and device applications - ScienceDirect
Topological aspects of antiferromagnets - IOPscience