Covers the birth of quantum mechanics, Schrödinger's equations, superconductivity, Josephson effect, and the theory of superconductivity.
Explains the postulates of quantum mechanics, including system description, evolution, measurement, composite systems, and examples with qubits.
Covers the basics of quantum computing, focusing on superconducting qubits, scaling challenges, and potential applications.
Covers the fundamental principles of quantum computing and unitary evolution in quantum systems.
Explores quantum random number generation, discussing the challenges and implementations of generating good randomness using quantum devices.
Explores quantum entanglement, Bell inequalities, and self-testing in quantum systems.
Explores the postulates of Quantum Mechanics, emphasizing the state of a system as a complex-valued vector in a Hilbert space.
Explores the application of linear algebra in quantum mechanics, emphasizing vector spaces, Hilbert spaces, and the spectral theorem.
Explores photon polarisation, including linear, circular, and elliptical polarisation concepts.
Covers the postulates of Quantum Mechanics and examples with quantum bits, including observables and unitary matrices.
Explores analog and digital quantum computing, quantum jumps, cooling of atoms with light, quantum computer technologies, and trapped ion quantum bits.
