Abstract
We propose extending the site selection and mode selective capabilities of four-wave mixing spectroscopies to room-temperature samples using six-wave mixing to develop multiple Raman resonances. Calculations predict a coherent higher-order Raman excitation spectroscopy (CHORES) should be observable at excitation intensities > 1 GW / cm 2, but there is also competition from a sequential CARS (SCARS) process. The SCARS mechanism dominates over CHORES for electronically non-resonant excitations. Since SCARS and CHORES have identical dependencies on both input intensities and resonances, phase-matching considerations must be used to spatially separate their respective contributions.
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