Thickness dependence of the triplet spin-valve effect in superconductor–ferromagnet–ferromagnet heterostructures

LENK, Daniel; ZDRAVKOV, Vladimir I.; KEHRLE, Jan-Michael; OBERMEIER, Günter; ULLRICH, Aladin; MORARI, Roman; NIDDA Von, Hans-Albrecht Krug; MÜLLER, Claus; KUPRIYANOV, Mikhail Yu.; SIDORENKO, Anatolie S.; HORN, Siegfried; DEMINOV, Rafael G.; TAGIROV, Lenar R.; TIDECKS, Reinhard

Thickness dependence of the triplet spin-valve effect in superconductor–ferromagnet–ferromagnet heterostructures

LENK, Daniel; ZDRAVKOV, Vladimir I.; KEHRLE, Jan-Michael; OBERMEIER, Günter; ULLRICH, Aladin; MORARI, Roman; NIDDA Von, Hans-Albrecht Krug; MÜLLER, Claus; KUPRIYANOV, Mikhail Yu.; SIDORENKO, Anatolie S.; HORN, Siegfried; DEMINOV, Rafael G.; TAGIROV, Lenar R.; TIDECKS, Reinhard

URI: https://doi.org/10.3762/bjnano.7.88
http://repository.utm.md/handle/5014/12221

Date: 2016

Abstract:

In nanoscale layered S/F1/N/F2/AF heterostructures, the generation of a long-range, odd-in-frequency spin-projection one triplet component of superconductivity, arising at non-collinear alignment of the magnetizations of F1 and F2, exhausts the singlet state. This yields the possibility of a global minimum of the superconducting transition temperature Tc, i.e., a superconducting triplet spin-valve effect, around mutually perpendicular alignment.