Linewidth Broadening of Coupled Quantum Dot Pairs

ORAL

Abstract

Solid state atoms are promising systems for emerging quantum technologies. The harnessing of coherences in these systems offers a route to quantum-enhanced devices for sensing, information processing and communications. Crucial for the realization of such technology is the understanding of the dephasing, relaxation and fluctuation processes affecting quantum states in the solid state environment in order to mitigate, eliminate and utilize these processes. In the optical spectra these phenomena are prominent via the linewidth broadening and line profile of optical transitions. We perform a detailed analysis of linewidth broadening of spatially direct, indirect excitons and examine the linewidth as function of electric field including the tunneling resonances. The study yields new insights on the broadening mechanisms for different charge and spin configurations in coupled quantum dots systems as a function of temperature and tunnel coupling strength.

*This work was supported by the Defense Threat Reduction Agency, Basic Research Award HDTRA1-15-1-0011.

Presenters

  • Parveen Kumar

    • Univ of California - Merced
    • University of California - Merced

Authors

  • Parveen Kumar

    • Univ of California - Merced
    • University of California - Merced

  • Cameron Jennings

    • Univ of California - Merced
    • School of Natural Sciences, Univ of California - Merced

  • Cyprian Czarnocki

    • Univ of California - Merced
    • School of Natural Sciences, Univ of California - Merced
    • School of Natural Sciences, University of California, Merced

  • Joshua Casara

    • Univ of California - Merced
    • School of Natural Sciences, University of California, Merced

  • Andrew Jacobs

    • Univ of California - Merced

  • Allan Bracker

    • Naval Research Laboratory
    • Naval Research Lab
    • U.S. Naval Research Lab

  • Brennan Pursley

    • Naval Research Lab

  • Daniel Gammon

    • Naval Research Lab

  • Sophia Economou

    • Virginia Tech

  • Samuel Carter

    • Naval Research Laboratory
    • Naval Research Lab
    • U.S. Naval Research Lab

  • Michael Scheibner

    • Univ of California - Merced
    • University of California - Merced
    • School of Natural Sciences, Univ of California - Merced
    • School of Natural Sciences, University of California, Merced