MICRO-444: La science quantique : une vision singulière

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Lectures in this course (47)

Quantum Mechanics: Density Matrix Formalism

Explains the density matrix formalism in quantum mechanics, covering pure and mixed states, their properties, and evolution over time.

Quantum Harmonic Oscillator: Mechanics and Applications

Explores the quantum harmonic oscillator's mechanics, energy dynamics, and applications in quantum physics.

Quantum Harmonic Oscillator: Coupling and Coherent States

Covers the quantum harmonic oscillator and its applications in coupling quantum circuits.

Qubits: Understanding Quantum States and Operations

Covers the fundamentals of qubits, including their states, superposition, and operations in quantum mechanics.

Qubits: Tensor Products and Entangled States

Explains tensor products and entangled states in quantum mechanics, focusing on pairs of qubits and their mathematical representations.

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Quantum Cryptography: Optical Qubits and Teleportation

Explores quantum cryptography, focusing on optical qubits, entanglement, and teleportation principles.

Quantum Couplers: Hamiltonians and Coupling Mechanisms

Covers quantum couplers, focusing on Hamiltonians, coupling mechanisms, and their applications in quantum computing.

Coupling Capacitive: Two Qubits Interaction

Covers the capacitive coupling of two qubits and its implications in quantum mechanics.

Superconducting Qubits: Principles and Applications

Covers the principles and applications of superconducting qubits in quantum science.

Superconducting Qubits: Non-Demolition Measurements and Control Techniques

Covers superconducting qubits, focusing on non-demolition measurements and control techniques essential for quantum computing.

Magnetic Resonance: Spin Qubits and Their Applications

Covers magnetic resonance principles and their application to spin qubits in quantum science.

Spin Qubits: Quantum Point Contacts and Measurements

Covers the principles of spin qubits and their measurement techniques using quantum point contacts.

Quantum Science: Photoemission and Interference Exercises

Discusses quantum science exercises on photoemission, interference, and particle behavior, emphasizing student engagement and problem-solving.

Quantum Operators: Exponential and Position Measurement

Covers the mathematical foundations of quantum mechanics, focusing on operators and their applications in quantum states.

Quantum Mechanics: Spatial Interference and Coupling

Covers quantum mechanics exercises on spatial interference and coupling between oscillators, emphasizing independent problem-solving and the implications of measurement in quantum systems.

Quantum Mechanics: Bohr Model and Energy Quantization

Discusses the Bohr model of the atom, focusing on electron orbits and energy quantization.

Gas Absorption and Molecular Formation: Quantum Concepts

Covers optical absorption in gases and the formation of molecules, focusing on quantum principles and energy states.

Diode Schottky and PN Heterojunctions: Band Structure Analysis

Covers the construction of band diagrams for Schottky diodes and PN heterojunctions in semiconductor physics.

Photonics Quantization: Exploring Energy States in Different Dimensions

Discusses the quantization of photonic states in various dimensions and their implications for quantum science.

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