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Controlled NOT gate
Formal sciences
Theoretical computer science
Theory of computation
Quantum computing
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Related lectures (32)
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Introduction to Quantum Computing
Covers the basics of quantum computing, including gates, measurements, and key examples.
Quantum and nanocomputing
Explores quantum computing fundamentals, qubit realization, control, scalable quantum computers, and spin qubits.
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.
Quantum Transport in Molecular Wires
Explores quantum transport in molecular wires, discussing transmission spectrum, broadening effect, charging effect, and logic computation.
Principles of Quantum Physics
Explores the fundamental principles of quantum physics, including quantum states, unitary transformations, Hilbert spaces, and measurement processes.
Quantum Gates and Entanglement
Explores quantum gates, entanglement, and the importance of precise gate operations in quantum computing.
Quantum Logic Gates Realizations
Covers the realizations of quantum logic gates and their quantum counterparts.
Linear Algebra in Dirac Notation
Covers linear algebra in Dirac notation, focusing on vector spaces and quantum bits.
Trapped Ions: Quantum Information
Covers the fundamentals of trapped ions for quantum information processing, including geometric phase gates and auxiliary states.
The Paradigm of Digital Quantum Computing
Covers quantum gates, error correction, XOR operations, reversible computation, unitary matrices, quantum circuits, controlled operations, and Bell states.
Quantum Information: Superdense Coding
Explores superdense coding in quantum information, covering encoding protocols, entanglement, and classic hits in communication.
Quantum computing: basics
Introduces the basics of quantum computing, covering qubits, superposition, entanglement, quantum gates, and algorithms, highlighting the efficiency of quantum computation.
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