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Electron, Oxygen, and Spin Transport...
~
Balakrishnan, Purnima Parvathy.
Electron, Oxygen, and Spin Transport in Complex Oxide Perovskites.
紀錄類型:
書目-電子資源 : Monograph/item
正題名/作者:
Electron, Oxygen, and Spin Transport in Complex Oxide Perovskites.
作者:
Balakrishnan, Purnima Parvathy.
出版者:
Ann Arbor : ProQuest Dissertations & Theses, 2020
面頁冊數:
210 p.
附註:
Source: Dissertations Abstracts International, Volume: 82-02, Section: B.
附註:
Advisor: Suzuki, Yuri;Goldhaber-Gordon, David;Lee, Young.
Contained By:
Dissertations Abstracts International82-02B.
標題:
Condensed matter physics.
電子資源:
http://pqdd.sinica.edu.tw/twdaoapp/servlet/advanced?query=28104048
ISBN:
9798662511439
Electron, Oxygen, and Spin Transport in Complex Oxide Perovskites.
Balakrishnan, Purnima Parvathy.
Electron, Oxygen, and Spin Transport in Complex Oxide Perovskites.
- Ann Arbor : ProQuest Dissertations & Theses, 2020 - 210 p.
Source: Dissertations Abstracts International, Volume: 82-02, Section: B.
Thesis (Ph.D.)--Stanford University, 2020.
This item must not be sold to any third party vendors.
The manipulation of the spin of charge carriers within solid-state materials has the potential to greatly reduce power consumption and increase computational speeds and information storage densities. The development of these spintronic devices requires development of new materials which can be used to efficiently generate, propagate, and detect spin currents. One promising class of materials to use are the complex oxide perovskites, which exhibit a rich variety of tunable electronic and magnetic properties and which can be interfaced and combined to create emergent interfacial phenomena. In this thesis, I will cover two efforts to develop materials for spintronics applications. The first part of this thesis focuses on the surprising discovery that the pulsed laser deposition process used to grow homoepitaxial thin films of oxygen-deficient SrTiO(3-x) can significantly change the properties of the underlying SrTiO3 substrate. In the search for a low-dimensional metal with high mobility and high spin-orbit coupling, I find that the plume dynamics and kinetics during thin film growth cause significant oxygen-reduction of and conductivity in the entire substrate, significantly faster than by other processes. This has significant implications for thin film growth of many different materials. In the second part of the thesis, I will focus on spin current generation via microwaves in a low-loss ferromagnetic metal, (La2/3Sr1/3)MnO3, and the transmission of spin angular momentum across an epitaxial interface with a non-magnetic, high spin-orbit coupled metal, CaRuO3. Using ferromagnetic resonance spectroscopy to both generate these spin currents as well as measure magnetic properties, I not only find evidence of efficient spin pumping across the interface, but also find that the orthorhombic CaRuO3 can affect the magnetic and electronic anisotropy in these heterostructures, likely due to structural effects. While complex oxides remain promising candidates for spintronics, the integration of different materials offers additional degrees of freedom which must be fully understood to engineer additional functionality.
ISBN: 9798662511439Subjects--Topical Terms:
708726
Condensed matter physics.
Subjects--Index Terms:
Thin films
Electron, Oxygen, and Spin Transport in Complex Oxide Perovskites.
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The manipulation of the spin of charge carriers within solid-state materials has the potential to greatly reduce power consumption and increase computational speeds and information storage densities. The development of these spintronic devices requires development of new materials which can be used to efficiently generate, propagate, and detect spin currents. One promising class of materials to use are the complex oxide perovskites, which exhibit a rich variety of tunable electronic and magnetic properties and which can be interfaced and combined to create emergent interfacial phenomena. In this thesis, I will cover two efforts to develop materials for spintronics applications. The first part of this thesis focuses on the surprising discovery that the pulsed laser deposition process used to grow homoepitaxial thin films of oxygen-deficient SrTiO(3-x) can significantly change the properties of the underlying SrTiO3 substrate. In the search for a low-dimensional metal with high mobility and high spin-orbit coupling, I find that the plume dynamics and kinetics during thin film growth cause significant oxygen-reduction of and conductivity in the entire substrate, significantly faster than by other processes. This has significant implications for thin film growth of many different materials. In the second part of the thesis, I will focus on spin current generation via microwaves in a low-loss ferromagnetic metal, (La2/3Sr1/3)MnO3, and the transmission of spin angular momentum across an epitaxial interface with a non-magnetic, high spin-orbit coupled metal, CaRuO3. Using ferromagnetic resonance spectroscopy to both generate these spin currents as well as measure magnetic properties, I not only find evidence of efficient spin pumping across the interface, but also find that the orthorhombic CaRuO3 can affect the magnetic and electronic anisotropy in these heterostructures, likely due to structural effects. While complex oxides remain promising candidates for spintronics, the integration of different materials offers additional degrees of freedom which must be fully understood to engineer additional functionality.
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