Modeling of normal-superconductor hybrid structures

The aim of the project is to examine the role of the novel low-dimensional materials and molecular junctions in the properties of normal-superconductor hybrid structures. We perform the necessary numerical calculations using the EQuUs framework (see details at http://eqt.elte.hu/EQuUs/html/) developed by our group. EQuUs enables us to describe large-scaled multiterminal Josephson junctions and Cooper-pair splitting devices on a microscopic level, which would be unique in the corresponding literature. Hence, our work would provide support for the experimentalists to increase the efficiency of their quantum devices and discover the explanation for the unresolved experimental observations. We expect that our work will initiate new directions in experimental research and engineering.The aim of the project is to examine the role of the novel low-dimensional materials and molecular junctions in the properties of normal-superconductor hybrid structures. We perform the necessary numerical calculations using the EQuUs framework (see details at http://eqt.elte.hu/equus/home) developed by our group. EQuUs enables us to describe large-scaled multiterminal Josephson junctions and Cooper-pair splitting devices on a microscopic level, which would be unique in the corresponding literature. Hence, our work would provide support for the experimentalists to increase the efficiency of their quantum devices and discover the explanation for the unresolved experimental observations. We expect that our work will initiate new directions in experimental research and engineering.

Project leader(s): József Cserti; Péter Rakyta

Participant(s): Andor Kormányos; András Csordás

Webpage: eqt.elte.hu/equus/home