Gate controlled superconductivity in metals
2024. November 02.
A review article with the involvement of the Quantum Electronics group on gate controlled superconductivity has been published.
2024. November 02.
A review article with the involvement of the Quantum Electronics group on gate controlled superconductivity has been published.
2024. November 02.
The Quantum Electronics's newest measurements showing signatures of topological phase transition in ZrTe5, has just been published in npj Quantum Materials.
2024. November 01.
Experiments of the Nanoelectronics Group reveal the switching mechanism of superconducting transistors. Published in Nature Communications.
2024. September 26.
The 8th edition of the graphene and 2D material workshop organized by the quantum electronics group was a great success with leading scientists from all over Europe. See you next year!
2024. September 13.
Researchers of our department have uses an unusally strong non-reciprocal ligh absorption to map out the antiferromagnetic domains of LiCoPO4-ban, melyet az antiferromágneses domének megjelenítésére használtak. The study appeared in PRB also highlighted by the editorial suggestion.
2024. September 06.
Researchers of the department have created a new, diamond-based light source, operating in the terahertz range of electromagnetic radiation. The work was published in Science Advances.
2024. August 13.
The newest manuscript of the Quantum Electronics group on multi-terminal Josephson junctions has been published in Phys. Rev. Research.
2023. November 26.
The juree has granted the proposal entitled "Self-organization of material transport processes from micro to macro-scale".