Cavity-enhanced Spectroscopy of
single-walled Carbon Nanotubes
Carbon nanotubes (CNTs) offer an intriguing combination of optical, electronic, and mechanical properties. We develop different techniques of cavity-enhanced spectroscopy to characterize individual CNTs. In particular, we are working on spatially resolved, cavity-enhanced Raman spectroscopy to obtain spatial maps of molecular-fingerprint information. Furthermore, localized excitons in CNTs offer an electronic degree of freedom to study quantum-coherent light-matter interactions. We are preparing an experiment where we want to couple individual free-standing nanotubes to an optical microcavity at cryogenic temperature. The project is in close collaboration with Prof. Alexander Högele and partially funded by NIM.