Explores quantum random number generation, discussing the challenges and implementations of generating good randomness using quantum devices.
Covers entropic notions in quantum sources, Shannon entropy, Von Neumann entropy, and source coding.
Explores quantum entanglement, Bell inequalities, and self-testing in quantum systems.
Covers the basics of number theory, RSA encryption, and Shor's period finding algorithm.
Delves into quantum entanglement, exploring entangled particles' state, evolution, and measurement.
Explores the fundamental principles of quantum physics, including quantum states, unitary transformations, Hilbert spaces, and measurement processes.
Explores NISQ devices and IBM Q, covering noisy quantum circuits, qubit technologies, and quantum algorithm development.
Explores the general description of quantum measurements, including post-measurement states and Kraus operators.
Continues the discussion on Simon's hidden subgroup problem, focusing on finding a basis.
Covers the verification of N-qubit Hamiltonians using quantum computing techniques.
