TCIs are topological phases of matter that are protected by crystal symmetries, including the reflection, rotation, etc. We are delighted to introduce you a really nice review of this topic. Please find the article here.
Month: July 2021
Sixfold excitations in electrides
In high-energy physics, PoincarĂ© symmetry puts strong constraints on the standard model, leading to only three different types of fermions, i.e., Dirac, Weyl, and Majorana fermions. Although several kinds of particles (such as protons) are confirmed to be Dirac fermions, the signature of Weyl and Majorana fermions is still lacking in particle physics experiments. In […]
New classes oftopological crystalline insulators having surface rotation anomaly
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A tool to obtain irrepresentations of electronic states in crystals
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Opportunities and Challenges in Twisted Bilayer Graphene: A Review
Two-dimensional (2D) materials exhibit enhanced physical, chemical, electronic, and optical properties when compared to those of bulk materials. Graphene demands significant attention due to its superior physical and electronic characteristics among different types of 2D materials. The bilayer graphene is fabricated by the stacking of the two monolayers of graphene. The twisted bilayer graphene (tBLG) […]
The shape of things to come
Nature Physics has an article writing about the emergence of Topology in Condensed Matter Physics. The understanding of the topological effects in the world of materials would push upwards advances in the realization of Quantum Computers. Please find the article via this link.