Christina Koliofoti
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View article: Consistent quantum treatments of non-convex kinetic energies
Consistent quantum treatments of non-convex kinetic energies Open
The task of finding a consistent relationship between a quantum Hamiltonian and a classical Lagrangian is of utmost importance for basic, but ubiquitous techniques like canonical quantization and path integrals. Nonconvex kinetic energies …
View article: Emulating moiré materials with quasiperiodic circuit quantum electrodynamics
Emulating moiré materials with quasiperiodic circuit quantum electrodynamics Open
Topological band structures interfering with moiré superstructures give rise to a plethora of emergent phenomena, which are pivotal for correlated insulating and superconducting states of twisttronics materials. While quasiperiodicity was …
View article: On-demand analog space-time in superconducting networks: grey holes, dynamical instability and exceptional points
On-demand analog space-time in superconducting networks: grey holes, dynamical instability and exceptional points Open
There has been considerable effort to mimic analog black holes and wormholes in solid state systems. Lattice realizations in particular present specific challenges. One of those is that event horizons in general have both white and black h…
View article: Compact description of quantum phase slip junctions
Compact description of quantum phase slip junctions Open
Quantum circuit theory is a powerful tool to describe superconducting circuits. In its language, quantum phase slips (QPSs) are considered to be the exact dual to the Josephson effect. This duality renders the integration of QPS junctions …
View article: Emulating moiré materials with quasiperiodic circuit quantum electrodynamics
Emulating moiré materials with quasiperiodic circuit quantum electrodynamics Open
Topological bandstructures interfering with moiré superstructures give rise to a plethora of emergent phenomena, which are pivotal for correlated insulating and superconducting states of twisttronics materials. While quasiperiodicity was u…
View article: Compact description of quantum phase slip junctions
Compact description of quantum phase slip junctions Open
Quantum circuit theory is a powerful and ever-evolving tool to predict the dynamics of superconducting circuits. In its language, quantum phase slips (QPSs) are famously considered to be the exact dual to the Josephson effect. However, thi…
View article: Compact description of quantum phase slip junctions
Compact description of quantum phase slip junctions Open
Quantum circuit theory is a powerful and ever-evolving tool to predict the dynamics of superconducting circuits. In its language, quantum phase slips (QPSs) are famously considered to be the exact dual to the Josephson effect. However, thi…