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Coupled charge, spin and heat transport in metal-insulator hybrid systems
Juan Shan
Physics of Nanodevices
Research output
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Thesis
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Thesis fully internal (DIV)
868
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Dive into the research topics of 'Coupled charge, spin and heat transport in metal-insulator hybrid systems'. Together they form a unique fingerprint.
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Physics
Angular Momentum
33%
Electric Fields
33%
Heat Transfer
100%
Magnetic Field
66%
Magnetic Material
33%
Magnon
33%
Peltier Effect
33%
Photoelectric Emission
66%
Seebeck Effect
33%
Spintronics
100%
Thermodynamic Properties
33%
Transport Property
33%
Tunnel Junction
100%
Yttrium-Iron Garnet
66%
Engineering
Angular Momentum
33%
Applied Magnetic Field
33%
Charge Transport
100%
Electric Field
33%
Heat Transport
100%
Magnetic Field
33%
Magnetic Tunnel Junction
100%
Magnetoelectronics
100%
Magnetoresistive Random-Access Memory
33%
Material System
33%
Peltier Coefficient
33%
Peltier Effect
33%
Seebeck Effect
33%
Material Science
Garnet
100%
Magnetic Material
50%
Thermal Property
50%
Yttrium
100%
Keyphrases
Magnonic Spin Current
33%
Mobile Electrons
33%
Yttrium Iron Garnet Ferrite
33%