Quantum Dot Physics

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Related lectures (32)

Page 3 of 4

Explores the Jaynes-Cummings Hamiltonian, strong coupling with superconducting qubits, dispersive interaction, and vacuum Rabi splitting.

Trapped Ions Quantum Computing

Explores analog and digital quantum computing, quantum jumps, cooling of atoms with light, quantum computer technologies, and trapped ion quantum bits.

Josephson Junctions: Theory and Applications

Explores Josephson junctions, covering theory, fabrication, and practical applications in superconducting electronics.

Excitons, Luminescence and LEDs

Explores excitons, luminescence, and LEDs, including their formation, impact on carrier density, and working principles.

Quantum Computation Delegation

Explores fully classical qubits, blind quantum computing, and verifiability in quantum delegation protocols.

Materials challenges in qubits

Explores qubit design, errors, decoherence sources, and material challenges in improving qubit performance.

Quantum and nanocomputing

Explores quantum computing fundamentals, qubit realization, control, scalable quantum computers, and spin qubits.

Quantum Computing with NV-centers in Diamond

Explores size-dependent phononic transport in nanowires, covering phonon scattering, thermal conductivity, and length dependence.

Semiconductor Band Structure

Explores semiconductor band structure, including Fourier transform, crystal structures, and bandgap systematics.

Quantum Metrology: Superconducting Electronics & Qubits

Explores quantum metrology, superconducting electronics, detectors, qubits, and quantum supremacy, emphasizing advancements in quantum computing.