Quantum correlations: Light and Molecular Vibrations

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Explores quantum backaction, noise mitigation strategies, and the analysis of quantum fluctuations.

Explores molecular vibrations, normal modes, IR & Raman activity, and symmetry analysis.

Explores the Jarzynski equation and the quantization of electrical circuits in quantum harmonic oscillators.

Explores hardware technologies, quantum electronics, cryogenic systems, quantum computing, and ADC architectures.

Provides insights into molecular vibrations and their impact on electronic transitions and spectroscopy.

Explores the Stern-Gerlach experiment, strong measurements, cavity quantum electrodynamics, and quantum optomechanics.

Explores vibrations in solids, including harmonic oscillators, phonons, and the Einstein model of heat capacity.

Explores spectroscopy, light propagation, and absorption processes in molecules.

Introduces inelastic scattering in transmission electron microscopy, focusing on electron energy-loss spectroscopy principles and applications.

Explores optical spectroscopy, emphasizing photodetectors' efficiency and performance metrics.