Time-resolved multimode heterodyne detection for dissecting coherent states of matter
- Resource Type
- Working Paper
- Authors
- Glerean, Filippo; Jarc, Giacomo; Marciniak, Alexandre; Sparapassi, Giorgia; Montanaro, Angela; Rigoni, Enrico Maria; Giusti, Francesca; Tollerud, Jonathan Owen; Fausti, Daniele
- Source
- Optics Letters Vol. 45, Issue 13, pp. 3498-3501 (2020)
- Subject
- Physics - Applied Physics
Physics - Optics
- Language
Unveiling and controlling the coherent evolution of low energy states is a key to attain light driven new functionalities of materials. Here we investigate the coherent evolution of non-equilibrium photon-phonon Raman interactions in the low photon number regime via femtosecond time-resolved multimode heterodyne detection. The time dependence of the weak probe spectral components is revealed by interferential amplification with shaped phase-locked reference fields that allow for a frequency selective amplification. We report measurements on $\alpha$-quartz that show that both amplitude and phase of the probe spectral components are modulated at the phonon frequency, but encode qualitatively different responses which are representative respectively of the time dependent position and momentum of the atoms. We stress that the sensitivity achieved here (1-10 photons per pulse) may be of relevance for both quantum information technologies and time domain studies on photosensitive materials.