COM-309: Introduction to quantum information processing

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Lectures in this course (78)

Principles of Quantum Mechanics

Covers the principles of quantum mechanics, including the Measurement Principle and Max Born Rule.

Quantum Information Principles

Covers the mathematical principles of quantum physics, including Hilbert spaces and quantum bits.

Quantum Information: Principles and Measurements

Covers the principles of quantum physics and quantum measurements.

Magnetic Moments and Spin

Covers the quantum description of magnetic moments and spin, including the Pauli matrices and observable energy.

Quantum Information Principles

Covers the principles of quantum information and the importance of avoiding entanglement.

NISQ and IBM Q

Explores NISQ devices and IBM Q, covering noisy quantum circuits, qubit technologies, and quantum algorithm development.

Quantum Cryptography: Key Generation Protocol

Explores quantum cryptography, emphasizing key generation using the one-time pad protocol and the role of Eve in intercepting communication.

Introduction to Quantum Computing: NISQ and IBM Q

Covers the basics of quantum computing, focusing on NISQ and IBM Q, including qubits, superposition, and quantum information processing.

Bloch sphere representation and Larmor precession

Covers the Bloch sphere representation and Larmor precession in spin 1/2 systems.

Quantum Information: Security Testing

Covers security testing in quantum communication, emphasizing the importance of rigorous verification and testing protocols.

Dynamics of Spin in Time-Dependent Magnetic Field

Covers the dynamics of spin in a time-dependent magnetic field, focusing on the Hamiltonian generating the dynamics.

Hamiltonian of Heisenberg: Interaction and Energy Levels

Covers the Hamiltonian of Heisenberg and the interaction between classical magnetic moments.

Quantum Information: Attacks and Cloning

Covers quantum information, focusing on attacks by Eve and the impossibility of perfectly copying quantum states.

Dynamics of Spin in Time-Dependent Magnetic Field

Covers the dynamics of spin in a time-dependent magnetic field and the impact of time-independent fields on spin dynamics.

Quantum Entanglement and Teleportation

Explores quantum entanglement, teleportation, Bell's inequalities, and superdense coding in quantum information.

Quantum Information Processing: CNOT Gate

Explores the implementation of the CNOT gate in quantum information processing.

Dynamics in a magnetic field: Rabi oscillations, NOT, Hadamard gates

Covers the dynamics of spin 1/2 in a magnetic field, focusing on Rabi oscillations.

Heisenberg Interaction: 2-Qubit Gates

Explores Heisenberg interaction and 2-qubit gates in quantum systems with intrinsic magnetic moments and Pauli matrices.

Quantum Teleportation

Explains quantum teleportation, demonstrating the successful transfer of quantum information using classical communication channels and various quantum operations.

Quantum Information: Superdense Coding

Explores superdense coding in quantum information, covering encoding protocols, entanglement, and classic hits in communication.

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