2016
DOI: 10.1002/adma.201603119
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Resonantly Increased Optical Frequency Conversion in Atomically Thin Black Phosphorus

Abstract: Optical frequency conversion via the nonlinear effect of third harmonic generation is shown to be resonantly enhanced in few-layer black phosphorus. This feature is believed to be a consequence of exciton-related resonance, as the enhancement is strongly correlated with the observation of exciton-recombination photoluminescence. Few-layer thicknesses are obtained both via mechanical exfoliation and laser thinning.

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Cited by 68 publications
(69 citation statements)
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“…Using a nonorthogonal TB model to compute the energy dispersion and eigenstates of bP, we evaluate the low-energy THG conductivity. Results for bulk bP agree, at least qualitatively, with the experimental reports of THG in bulk or many-layer samples bP [31][32][33]. Furthermore, the results show the importance of the mixed inter-intraband processes for the nonlinear response at energy scales comparable with the optical gap, particularly for systems whose electronic properties are accurately captured by two bands at this energy scale.…”
Section: Discussionsupporting
confidence: 78%
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“…Using a nonorthogonal TB model to compute the energy dispersion and eigenstates of bP, we evaluate the low-energy THG conductivity. Results for bulk bP agree, at least qualitatively, with the experimental reports of THG in bulk or many-layer samples bP [31][32][33]. Furthermore, the results show the importance of the mixed inter-intraband processes for the nonlinear response at energy scales comparable with the optical gap, particularly for systems whose electronic properties are accurately captured by two bands at this energy scale.…”
Section: Discussionsupporting
confidence: 78%
“…The anisotropy of the system manifests itself clearly for both the bulk and monolayer bP, with the patterns dominated by the contribution of I x /I 0 |σ 11 | 2 cos 6 θ . To the best of our knowledge, experimental data on THG in bP is limited to bulk or several layer [31][32][33] and results for the intensity dependence on the polarization angle appear to be inconsistent, e.g., pattern of total intensity presented by Ref. [32] exhibits maxima along the crystal x direction, whereas Refs.…”
Section: Resultsmentioning
confidence: 99%
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