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W3102275192 abstract "The emerging field of $sphantom{rule{0}{0ex}}uphantom{rule{0}{0ex}}pphantom{rule{0}{0ex}}ephantom{rule{0}{0ex}}rphantom{rule{0}{0ex}}cphantom{rule{0}{0ex}}ophantom{rule{0}{0ex}}nphantom{rule{0}{0ex}}dphantom{rule{0}{0ex}}uphantom{rule{0}{0ex}}cphantom{rule{0}{0ex}}tphantom{rule{0}{0ex}}iphantom{rule{0}{0ex}}nphantom{rule{0}{0ex}}g$ $sphantom{rule{0}{0ex}}pphantom{rule{0}{0ex}}iphantom{rule{0}{0ex}}nphantom{rule{0}{0ex}}tphantom{rule{0}{0ex}}rphantom{rule{0}{0ex}}ophantom{rule{0}{0ex}}nphantom{rule{0}{0ex}}iphantom{rule{0}{0ex}}cphantom{rule{0}{0ex}}s$ offers a radically different approach to information processing and storage in the superconducting state, with minimal Joule heating. Many proposed devices would benefit from materials that naturally maximize the total spin of the superconducting state, and in this respect the reliable use of half-metallic ferromagnets is seen as a game-changer. Here the mixed-valence manganite La${}_{2/3}$Ca${}_{1/3}$MnO${}_{3}$ is shown to be ideal, as it crucially offers not only 100% spin polarization, but also chemical stability. Using this material, creation of spin-polarized Cooper pairs can be controlled in magnetic fields of just a few mT." @default.
W3102275192 created "2020-11-23" @default.
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W3102275192 date "2017-10-17" @default.
W3102275192 modified "2023-10-16" @default.
W3102275192 title "Magnetization Control and Transfer of Spin-Polarized Cooper Pairs into a Half-Metal Manganite" @default.
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W3102275192 doi "https://doi.org/10.1103/physrevapplied.8.044008" @default.
W3102275192 hasPublicationYear "2017" @default.
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