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Regular version of the site

Quantum Nanoelectronics Laboratory

Publications
Article
Phase diagrams of polarized ultra-cold gases on attractive-U Hubbard ladders

Burovski E., Ikhsanov R., Kuznetsov A. et al.

Journal of Physics: Conference Series. 2019. Vol. 1163. No. 012046. P. 012046-1-012046-5.

Book chapter
Coexistence of the magnetically ordered and Haldane states in (Y1-xNdx)2BaNiO5

Popova E., Klimin S., Popova M. et al.

In bk.: EPJ Web of Conferences. Vol. 185: Moscow International Symposium on Magnetism (MISM 2017) . EDP Sciences, 2018. Ch. 03003. P. 1-4.

Working paper
Competitive 0 and π states in S/F multilayers: multimode approach In press

Karabassov T., Stolyarov V. S., Golubov A. A. et al.

arxiv.org. cond-mat. Cornell University, 2019. No. 1905.09193.

About the laboratory

The main research area of ​​the Quantum Nanoelectronics Laboratory (QNL) is the study of the fundamental issues of macroscopic quantum coherence and nonequilibrium quantum processes, forming the basis for a new generation of nanoelectronic devices that have the potential for applications in information, communication and computer technologies, and other types of electronic systems.


Illustration for news: MIEM Delegation Visits Brazil

MIEM Delegation Visits Brazil

On March 31 - April 5, the Federal University of Pernambuco (UFPE) in Recife, Brazil, organized a BRIC-UFPE Scientific Workshop to discuss the recent scientific trends and projects, to strengthen cooperation between four BRIC countries, and promote collaboration.

Illustration for news: Vortex Patterns in Intertype Superconductivity Regime in Thin and Nanowire Superconductors

Vortex Patterns in Intertype Superconductivity Regime in Thin and Nanowire Superconductors

On January 22, a joint seminar of the School of Electronic Engineering and the Quantum Nanoelectronics Laboratory was held at MIEM HSE. MIEM postdoc Wilmer Yesid Cordoba Camacho gave a talk Vortex Patterns in Intertype Superconductivity Regime in Thin and Nanowire Superconductors.

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