Covers the basics of quantum computing, focusing on superconducting qubits, scaling challenges, and potential applications.
Explores quantum entanglement, Bell inequalities, and self-testing in quantum systems.
Explores quantum random number generation, discussing the challenges and implementations of generating good randomness using quantum devices.
Explores photon polarisation, including linear, circular, and elliptical polarisation concepts.
Covers the fundamental principles of quantum computing and unitary evolution in quantum systems.
Explores quantum measurements, including POVMS and general projections, and their applications in quantum computing.
Explores analog and digital quantum computing, quantum jumps, cooling of atoms with light, quantum computer technologies, and trapped ion quantum bits.
Explores quantum computing fundamentals, including qubits, gates, and entanglement, as well as the impact of quantum computing on society.
Covers the fundamentals of trapped ions in quantum information and the importance of geometric phases in quantum optics.
Explores the fundamentals and history of quantum computing, including qubit realization and the first and second quantum revolutions.
Delves into quantum entanglement, exploring entangled particles' state, evolution, and measurement.
