Demonstrating the decoupling regime of the electron-phonon interaction in a quantum dot using chirped optical excitation
Kaldewey T., Lüker S., Kuhlmann A., Valentin S., Chauveau J., Ludwig A., Wieck A., Reiter D., Kuhn T., Warburton R.
Research article (journal) | Peer reviewedAbstract
Excitation of a semiconductor quantum dot with a chirped laser pulse allows excitons to be created by rapid adiabatic passage. In quantum dots this process can be greatly hindered by the coupling to phonons. Here we add a high chirp rate to ultrashort laser pulses and use these pulses to excite a single quantum dot. We demonstrate that we enter a regime where the exciton-phonon coupling is effective for small pulse areas, while for higher pulse areas a decoupling of the exciton from the phonons occurs. We thus discover a reappearance of rapid adiabatic passage, in analogy to the predicted reappearance of Rabi rotations at high pulse areas. The measured results are in good agreement with theoretical calculations.
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Authors from the University of Münster
| Kuhn, Tilmann | Professur für Festkörpertheorie (Prof. Kuhn) |
| Lüker, Sebastian | Professur für Festkörpertheorie (Prof. Kuhn) |
| Reiter, Doris | Junior professorship of theoretical physics with the focus on ultrafast optics in nanostructured solids (Prof. Reiter) (AG Reiter) |