Add to ORKGTopological insulators (superconductors) are materials that host symmetry-protected metallic edge states in an insulating (superconducting) bulk. Although they are well understood, a thermodynamic description of these materials remained elusive, firstly because the edges yield a non-extensive contribution to the thermodynamic potential, and secondly because topological field theories involve non-local order parameters, and cannot be captured by the Ginzburg-Landau formalism. Recently, this challenge has been overcome: by using Hill thermodynamics to describe the Bernevig-Hughes-Zhang model in two dimensions, it was shown that at the topological phase change the thermodynamic potential does not scale extensively due to boundary effects. Here...
Dynamical phase transitions (DPT) are receiving a rising interest. They are known to behave analogou...
We study transitions between phases of matter with topological order. By studying these transitions ...
Topological order provides a new paradigm to view phases of matter. Unlike conventional symmetry bre...
Topological insulators (superconductors) are materials that host symmetry-protected metallic edge st...
For a long time, it was believed that the Ginzburg-Landau formalism was able to classify all differe...
We have applied the recently developed theory of topological Uhlmann numbers to a representative mod...
Topological insulators are states of matter distinguished by the presence of symmetry protected meta...
Superfluids and superconductors can be either fully gapped or gapless with nodal structures in momen...
We investigate the order of the topological quantum phase transition in a two-dimensional quadrupola...
Topological states of matter are a novel family of phases that elude the conventional Landau paradig...
The commonly adopted classification of the electronic phases of matter as metals, insulators, semime...
We introduce the Uhlmann geometric phase as a tool to characterize symmetry-protected topological ph...
An important goal of condensed matter physics is to search for new phases of matter. This thesis is ...
Fathoming interplay between symmetry and topology of many-electron wave functions has deepened our u...
We perform microscopic mean-field studies of topological order in a two-dimensional topological supe...
Dynamical phase transitions (DPT) are receiving a rising interest. They are known to behave analogou...
We study transitions between phases of matter with topological order. By studying these transitions ...
Topological order provides a new paradigm to view phases of matter. Unlike conventional symmetry bre...
Topological insulators (superconductors) are materials that host symmetry-protected metallic edge st...
For a long time, it was believed that the Ginzburg-Landau formalism was able to classify all differe...
We have applied the recently developed theory of topological Uhlmann numbers to a representative mod...
Topological insulators are states of matter distinguished by the presence of symmetry protected meta...
Superfluids and superconductors can be either fully gapped or gapless with nodal structures in momen...
We investigate the order of the topological quantum phase transition in a two-dimensional quadrupola...
Topological states of matter are a novel family of phases that elude the conventional Landau paradig...
The commonly adopted classification of the electronic phases of matter as metals, insulators, semime...
We introduce the Uhlmann geometric phase as a tool to characterize symmetry-protected topological ph...
An important goal of condensed matter physics is to search for new phases of matter. This thesis is ...
Fathoming interplay between symmetry and topology of many-electron wave functions has deepened our u...
We perform microscopic mean-field studies of topological order in a two-dimensional topological supe...
Dynamical phase transitions (DPT) are receiving a rising interest. They are known to behave analogou...
We study transitions between phases of matter with topological order. By studying these transitions ...
Topological order provides a new paradigm to view phases of matter. Unlike conventional symmetry bre...