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PHYS-745: Spin Dynamics
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Lectures in this course (14)
Spin Dynamics: Introduction to the course
Covers spintronics concepts, magnetism, transport, relaxation, coherences, course structure, and learning outcomes.
Exchange: Intra-atomic and Inter-atomic
Explores the fundamentals of exchange interactions, including intra-atomic and inter-atomic exchange, spin-orbit coupling, and Dzyaloshinskii-Moryia coupling.
Moments in metals: Kondo effect, Stoner model, and sd interaction
Explores the Kondo effect, Stoner model, and sd interaction in metals, focusing on magnetic atoms and impurities.
Magnetoresistance: GMR and TMR
Explores the history and mechanisms of GMR and TMR in magnetoresistance sensors.
Spin transport described by thermodynamics
Explores the thermodynamics of irreversible processes and spin transport phenomena in magnetic materials.
Boltzmann theory of transport (I)
Explores the Boltzmann transport equation, relaxation time approximation, Ohm's law, and spin-dependent transport.
Boltzmann (II): Berry phase formalism
Explores the Boltzmann transport equation, Berry phase, and the spin Hall effect in quantum mechanics.
Untitled
Spin relaxation mechanism
Explores spin relaxation mechanisms, perturbation theory, relaxation rates, momentum conservation, phonon drag, electron-magnon interactions, and symmetries.
Magnetic Resonance: Bloch Equations
Explores magnetic resonance, Bloch equations, spin precession, and dynamic spin polarization.
Ferromagnetic Resonance
Explores the effective field, spin waves, demagnetization field, and spin wave dispersions in thin films.
Antiferromagnetic Resonance
Explores the spin-flop transition, susceptibility, and magnetic resonance in antiferromagnets.
Spin Coherence: Double Quantum Coherence
Explores spin echo, quadrupolar echoes, and double quantum coherence in spin dynamics.
Spin Qubits: Bell States and Quantum Logic Gates
Explores Bell states, entangled states, CNOT gates, and spin qubit architecture in quantum computing.
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