Lecture

Quantum Propagation: Hamiltonian and State Decomposition

In course

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Description

This lecture covers the principles of quantum propagation, focusing on the Hamiltonian and its role in determining the evolution of quantum states. The instructor begins by summarizing the calculation of propagation and the importance of a proper basis in quantum mechanics. The lecture explains how to determine the Hamiltonian and diagonalize it to find eigenvalues and eigenstates. Examples are provided, including the propagation of an electron in a vacuum and the use of Fourier transforms to analyze quantum states. The instructor discusses the significance of eigenstates and their time evolution, emphasizing the relationship between the Hamiltonian and Schrödinger's equation. The concept of measurement in quantum mechanics is also addressed, illustrating how measurements affect the state of a quantum system. The lecture concludes with examples of coupled quantum wells and the implications for quantum systems, reinforcing the theoretical concepts with practical applications.

Instructor

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Official source

https://mediaspace.epfl.ch/media/0_1i67vn26

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