5: Two-Dimensional Spectroscopy

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5.1: Two-Dimensional Correlation Spectroscopy
What is two-dimensional spectroscopy? This is a method that will describe the underlying correlations between two spectral features.
5.2: 2D Spectroscopy from Third Order Response
These examples indicate that narrow band pump-probe experiments can be used to construct 2D spectra, so in fact the third-order nonlinear response should describe 2D spectra. To describe these spectra, we can think of the excitation as a third-order process arising from a sequence of interactions with the system eigenstates.
5.3: Fourier Transform Spectroscopy
There is close relationship between time and frequency domain representations of the data. Similar information to the frequency-domain double resonance experiment is obtained by Fourier transformation of the coherent evolution periods in a time domain experiment with short broadband pulses.
5.4: Characterizing Couplings in 2D Spectra
One of the unique characteristics of 2D spectroscopy is the ability to characterize molecular couplings1. This allows one to understand microscopic relationships between different objects, and with knowledge of the interaction mechanism, determine the structure or reveal the dynamics of the system.
5.5: Two-dimensional spectroscopy to characterize spectral diffusion
5.6: Appendix- Third Order Diagrams Corresponding to Peaks in a 2D Spectrum of Coupled Vibrations

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