Monday, April 13, 2015

Abstract-Generation of photovoltage in graphene on a femtosecond timescale through efficient carrier heating



http://www.nature.com/nnano/journal/vaop/ncurrent/full/nnano.2015.54.html
Nature Nanotechnology
 
 
doi:10.1038/nnano.2015.54
Received
 
Accepted
 
Published online
 
Graphene is a promising material for ultrafast and broadband photodetection. Earlier studies have addressed the general operation of graphene-based photothermoelectric devices and the switching speed, which is limited by the charge carrier cooling time, on the order of picoseconds. However, the generation of the photovoltage could occur at a much faster timescale, as it is associated with the carrier heating time. Here, we measure the photovoltage generation time and find it to be faster than 50 fs. As a proof-of-principle application of this ultrafast photodetector, we use graphene to directly measure, electrically, the pulse duration of a sub-50 fs laser pulse. The observation that carrier heating is ultrafast suggests that energy from absorbed photons can be efficiently transferred to carrier heat. To study this, we examine the spectral response and find a constant spectral responsivity of between 500 and 1,500 nm. This is consistent with efficient electron heating. These results are promising for ultrafast femtosecond and broadband photodetector applications.

At a glance

Figures

left
  1. Hot electron dynamics and their experimental extraction.
    Figure 1
  2. Femtosecond sensing of hot electrons.
    Figure 2
  3. Spectral response.
    Figure 3
  4. Electron heating efficiency.
    Figure 4
right

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