Theory of Josephson effect in junctions with complex ferromagnetic/normal metal weak link region

Tatiana Karminskaya

Research output: ThesisPhD Thesis - Research external, graduation UTAcademic

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Abstract

A theoretical study of physical foundations for creation of fundamentally new devices for nanoelectronics, spintronics and superconducting electronics, is presented. Special interest is given to new fundamental effects in structures containing ferromagnetic and superconducting layers, as well as the possibility of utilizing these effects for spin valves. There are serious restrictions on the operating parameters of known prototypes of superconducting spin valves, in which control of the critical current and critical temperature is possible. New design solutions are explored to solve these problems.
Original languageEnglish
Awarding Institution
  • University of Twente
Supervisors/Advisors
  • Rogalla, Horst, Supervisor
  • Golubov, A.A., Co-Supervisor
Award date16 Feb 2011
Place of PublicationEnschede
Publisher
Print ISBNs978-90-365-3160-3
DOIs
Publication statusPublished - 16 Feb 2011

Fingerprint

Josephson effect
metals
critical current
constrictions
critical temperature
prototypes
electronics
temperature

Keywords

  • METIS-274409
  • IR-80659

Cite this

Karminskaya, Tatiana. / Theory of Josephson effect in junctions with complex ferromagnetic/normal metal weak link region. Enschede : University of Twente, 2011. 119 p.
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Theory of Josephson effect in junctions with complex ferromagnetic/normal metal weak link region. / Karminskaya, Tatiana.

Enschede : University of Twente, 2011. 119 p.

Research output: ThesisPhD Thesis - Research external, graduation UTAcademic

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T1 - Theory of Josephson effect in junctions with complex ferromagnetic/normal metal weak link region

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Y1 - 2011/2/16

N2 - A theoretical study of physical foundations for creation of fundamentally new devices for nanoelectronics, spintronics and superconducting electronics, is presented. Special interest is given to new fundamental effects in structures containing ferromagnetic and superconducting layers, as well as the possibility of utilizing these effects for spin valves. There are serious restrictions on the operating parameters of known prototypes of superconducting spin valves, in which control of the critical current and critical temperature is possible. New design solutions are explored to solve these problems.

AB - A theoretical study of physical foundations for creation of fundamentally new devices for nanoelectronics, spintronics and superconducting electronics, is presented. Special interest is given to new fundamental effects in structures containing ferromagnetic and superconducting layers, as well as the possibility of utilizing these effects for spin valves. There are serious restrictions on the operating parameters of known prototypes of superconducting spin valves, in which control of the critical current and critical temperature is possible. New design solutions are explored to solve these problems.

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