Srabani Kar, Dipti R. Mohapatra, Eric Freysz, and A. K. Sood
http://journals.aps.org/prb/abstract/10.1103/PhysRevB.90.165420
Optical-pump terahertz-probe differential transmission measurements of as-prepared single layer graphene (AG) (unintentionally hole doped with Fermi energy EF at ∼−180meV ), nitrogen doping compensated graphene (NDG) with EF∼−10 meV, and thermally annealed doped graphene (TAG) are examined quantitatively to understand the opposite signs of photoinduced dynamic terahertz conductivity Δσ . It is negative for AG and TAG but positive for NDG. We show that the recently proposed mechanism of multiple generations of secondary hot carriers due to Coulomb interaction of photoexcited carriers with the existing carriers together with the intraband scattering can explain the change of photoinduced conductivity sign and its magnitude. We give a quantitative estimate of Δσ in terms of controlling parameters—the Fermi energy EF and momentum relaxation time τ . Furthermore, the cooling of photoexcited carriers is analyzed using a supercollision model which involves a defect mediated collision of the hot carriers with the acoustic phonons, thus giving an estimate of the deformation potential.
DOI: http://dx.doi.org/10.1103/PhysRevB.90.165420
©2014 American Physical Society
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