2017
DOI: 10.1103/physrevb.96.205439
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Microscopic origin of the Drude-Smith model

Abstract: The Drude-Smith model has been used extensively in fitting the THz conductivities of nanomaterials with carrier confinement on the mesoscopic scale. Here, we show that the conventional 'backscattering' explanation for the suppression of low-frequency conductivities in the Drude-Smith model is not consistent with a confined Drude gas of classical non-interacting electrons and we derive a modified Drude-Smith conductivity formula based on a diffusive restoring current. We perform Monte Carlo simulations of a mod… Show more

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Cited by 170 publications
(186 citation statements)
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References 96 publications
(203 reference statements)
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“…The semiclassical formula still agrees quite well with the Monte-Carlo result (position of the resonance and its amplitude). Note that this condition is not obvious from the classical derivation of the modified Drude-Smith model [85] while it clearly appears if derived from the full quantum model. The modified Drude-Smith model starts to disagree significantly with the principal shape of the mobility spectrum; this is because its validity is limited by the condition τ th ≫ τ′ (the charge carrier should be scattered several times during its round-trip in the NC) and this is no more fulfilled in 32 nm-sized crystal: τ th ≈ 0.3τ′ for d = 32 nm and τ th ≈ 10τ′ for d = 1024 nm.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…The semiclassical formula still agrees quite well with the Monte-Carlo result (position of the resonance and its amplitude). Note that this condition is not obvious from the classical derivation of the modified Drude-Smith model [85] while it clearly appears if derived from the full quantum model. The modified Drude-Smith model starts to disagree significantly with the principal shape of the mobility spectrum; this is because its validity is limited by the condition τ th ≫ τ′ (the charge carrier should be scattered several times during its round-trip in the NC) and this is no more fulfilled in 32 nm-sized crystal: τ th ≈ 0.3τ′ for d = 32 nm and τ th ≈ 10τ′ for d = 1024 nm.…”
Section: Discussionmentioning
confidence: 99%
“…[85] that the low-frequency decrease of the confined carriers mobility-and thus the Drude-Smith-like term in parentheses at the right-hand-side of (12)-finds its origin in the diffusion-restoring current in systems without the translational invariance. Indeed, it has been argued in ref.…”
Section: Simple Closed-form Models Of Carrier Mobilitymentioning
confidence: 99%
“…Finally, a much slower component that we attribute to free carrier recom bination decays over >250 ps. In general, the complex conductivity (σ ) of both of these samples can be described by Equation (2), (also known as the Drude-Smith model), where N is the charge carrier density, m* is the effective carrier mass, τ DS is the effective scattering time, and the cparameter character izes the degree of carrier localization due to the presence of boundaries [50,[52][53][54][55][56][57][58][59][60] σ ω τ ωτ ωτ However, while ≈250 ps is the lower limit of the photoexcited carrier lifetime, the radiative lifetime of ≈1.3 ns determined by TRPL is the upper limit.…”
Section: Characterization Of Structural and Optoelectronic Propertiesmentioning
confidence: 99%
“…However, the exact physical meaning of the parameter C 1 is ambiguous, because it introduces an additional average estimate on carrier scattering probability, which has already been described by the scattering time t in the original Drude term. 62 Both the LMD model and the DS model base the optical conductivity on a conductive free charge carrier term (the Drude term, dashed lines in Fig. 1) that is suppressed by modification terms based on negative-amplitude oscillators.…”
Section: Previous Modifications Of the Drude Model Applied To Ecpsmentioning
confidence: 99%