Probing the Phonon-Assisted Relaxation Process in DNA-wrapped Carbon Nanotubes Using Polarization Dependent Optical Spectroscopy

ORAL

Abstract

In this study, polarization-dependent spectroscopy is carried out on DNA-wrapped single walled nanotube hybrids, deposited onto a Sapphire substrate. By using a nanotube sample highly enriched in one specific (n,m) species and an intense light source, the various phonon-assisted excitonic relaxation processes, in addition to the commonly observed electronic interband transitions, can be separately identified and studied in detail. The phonon-assisted relaxation processes involving different phonon branches is emphasized in this study. The MIT authors acknowledge supports under the Dupont-MIT Alliance, NSF Grants DMR 04-05538.

Authors

  • Shin Grace Chou

    • Chemistry, MIT
    • Dept. of Chemistry, MIT

  • Andrew Walsh

    • ECE, BU
    • Phys. Dept., Boston Univ.
    • Boston University

  • Georgii Samsonidze

    • EECS, MIT

  • Jie Jiang

    • CREST, JST and Tohoku University

  • Riichiro Saito

    • Physics, Tohoku Univ., Japan

  • Flavio Plentz

  • Ado Jorio

    • Dept. of Phys., UFMG
    • UFMG-Brasil

  • Marcos Pimenta

    • Department of Physics - UFMG
    • Physics, UFMG, Brazil

  • Ming Zheng

  • G. Bibiana Onoa

  • Ellen Semke

    • Experimental Station, Dupont

  • Gene Dresselhaus

    • Frances Bitter Magnet Lab, MIT
    • Fransis Bitter Magnet Laboratory, MIT

  • Mildred Dresselhaus

    • MIT
    • Physics and EECS, MIT
    • Depr. of Phys., MIT

  • Anna Swan

    • ECE, BU
    • ECE Dept., Boston Univ.

  • Bennett Goldberg

    • Dept. of Physics, Boston University
    • Physics, BU
    • Department of Physics, Boston University
    • Phys. Dept., Boston Univ.
    • Boston University

  • M. Selim Unlu

    • Dept. of ECE, Boston University
    • ECE, BU
    • Dept. of Electrical and Computer Engineering, Boston University
    • Department of ECE, Boston University