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Topological semimetals such as Weyl or Dirac semimetals with superconductivity have emerged as a new class of topological materials to realize and study Majorana Fermion. This article reports the Density Functional Theory (DFT) calculated bulk electronic band structure of recently discovered topological superconductor candidate AuSn4. The study has been performed on AuSn4 considering two space groups symmetries viz. Aea2 and Ccce, as reported earlier. This study is further extended to the calculation of Z2 invariants. The Fermi surfaces corresponding to the bands, which are responsible for non-trivial band topology, along with the surface states, are also mapped. The complete study suggests that AuSn4 is a topological semimetal. On AuSn4, i...
Surface states of topological semimetals may give rise to unusual transport properties and topologic...
Topological materials are an exciting new area of inquiry. These materials exhibit fundamentally new...
In recent years, the number of materials known to host symmetry--protected topological phases has gr...
Materials exhibiting bulk superconductivity along with magnetoresistance (MR) in their normal state ...
The discoveries of the two-dimensional quantum Hall effect, the quantum spin Hall effect, and three-...
Recently, unconventional superconductivity having a zero-bias conductance peak is reported in doped ...
The Zintl compound AIn2X2 (A = Ca, Sr, and X = P, As), as a theoretically predicted new non-magnetic...
Platinum-group transition-metal dichalcogenides have emerged as a subject of considerable interest i...
The primary focus of this dissertation is studying the interaction between topological materials and...
Weyl semimetals (WSMs) hosting Weyl points (WPs) with different chiralities attract great interest a...
It was recently suggested that the topology of magic-angle twisted bilayer graphene's (MATBG) flat b...
An important goal of condensed matter physics is to search for new phases of matter. This thesis is ...
Weyl fermion is a massless Dirac fermion with definite chirality, which has been long pursued since ...
Topological superconductors (TSCs) in which superconductivity and topological properties are combine...
Three-dimensional Dirac semimetals (DSMs) are materials that have masslessDirac electrons and exhibi...
Surface states of topological semimetals may give rise to unusual transport properties and topologic...
Topological materials are an exciting new area of inquiry. These materials exhibit fundamentally new...
In recent years, the number of materials known to host symmetry--protected topological phases has gr...
Materials exhibiting bulk superconductivity along with magnetoresistance (MR) in their normal state ...
The discoveries of the two-dimensional quantum Hall effect, the quantum spin Hall effect, and three-...
Recently, unconventional superconductivity having a zero-bias conductance peak is reported in doped ...
The Zintl compound AIn2X2 (A = Ca, Sr, and X = P, As), as a theoretically predicted new non-magnetic...
Platinum-group transition-metal dichalcogenides have emerged as a subject of considerable interest i...
The primary focus of this dissertation is studying the interaction between topological materials and...
Weyl semimetals (WSMs) hosting Weyl points (WPs) with different chiralities attract great interest a...
It was recently suggested that the topology of magic-angle twisted bilayer graphene's (MATBG) flat b...
An important goal of condensed matter physics is to search for new phases of matter. This thesis is ...
Weyl fermion is a massless Dirac fermion with definite chirality, which has been long pursued since ...
Topological superconductors (TSCs) in which superconductivity and topological properties are combine...
Three-dimensional Dirac semimetals (DSMs) are materials that have masslessDirac electrons and exhibi...
Surface states of topological semimetals may give rise to unusual transport properties and topologic...
Topological materials are an exciting new area of inquiry. These materials exhibit fundamentally new...
In recent years, the number of materials known to host symmetry--protected topological phases has gr...
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