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Prolonged spontaneous emission and dephasing of localized excitons in air-bridged carbon nanotubes

Author

Listed:
  • Ibrahim Sarpkaya

    (Stevens Institute of Technology)

  • Zhengyi Zhang

    (Columbia University)

  • William Walden-Newman

    (Stevens Institute of Technology)

  • Xuesi Wang

    (Columbia University)

  • James Hone

    (Columbia University)

  • Chee W. Wong

    (Columbia University)

  • Stefan Strauf

    (Stevens Institute of Technology)

Abstract

The bright exciton emission of carbon nanotubes is appealing for optoelectronic devices and fundamental studies of light-matter interaction in one-dimensional nanostructures. However, to date, the photophysics of excitons in carbon nanotubes is largely affected by extrinsic effects. Here we perform time-resolved photoluminescence measurements over 14 orders of magnitude for ultra-clean carbon nanotubes bridging an air gap over pillar posts. Our measurements demonstrate a new regime of intrinsic exciton photophysics with prolonged spontaneous emission times up to T1=18 ns, about two orders of magnitude better than prior measurements and in agreement with values hypothesized by theorists about a decade ago. Furthermore, we establish for the first time exciton decoherence times of individual nanotubes in the time domain and find fourfold prolonged values up to T2=2.1 ps compared with ensemble measurements. These first observations motivate new discussions about the magnitude of the intrinsic dephasing mechanism while the prolonged exciton dynamics is promising for applications.

Suggested Citation

  • Ibrahim Sarpkaya & Zhengyi Zhang & William Walden-Newman & Xuesi Wang & James Hone & Chee W. Wong & Stefan Strauf, 2013. "Prolonged spontaneous emission and dephasing of localized excitons in air-bridged carbon nanotubes," Nature Communications, Nature, vol. 4(1), pages 1-8, October.
    • Handle: RePEc:nat:natcom:v:4:y:2013:i:1:d:10.1038_ncomms3152
    DOI: 10.1038/ncomms3152
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