Journal
ADVANCED FUNCTIONAL MATERIALS
Volume 31, Issue 36, Pages -Publisher
WILEY-V C H VERLAG GMBH
DOI: 10.1002/adfm.202104671
Keywords
GaAs; nanowires; second harmonic generation; spontaneous polarization; wurtzite
Categories
Funding
- Swedish Research Council [2019-04312]
- Swedish Foundation for International Cooperation in Research and Higher Education (STINT) [JA2014-5698]
- Swedish Government Strategic Research Area in Materials Science on Functional Materials at Linkoping University [2009 00971]
- KAKENHI from Japan Society of Promotion of Science [19H00855, 16H05970]
- National Natural Science Foundation of China [12027805, 11991060]
- Swedish Research Council [2019-04312] Funding Source: Swedish Research Council
- Grants-in-Aid for Scientific Research [16H05970, 19H00855] Funding Source: KAKEN
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This study demonstrates highly efficient second-harmonic generation in subwavelength wurtzite (WZ) GaAs nanowires, providing an effective strategy for enhancing and manipulating the nonlinear optical response in nanowires through lattice engineering.
GaAs-based semiconductors are highly attractive for diverse nonlinear photonic applications, owing to their non-centrosymmetric crystal structure and huge nonlinear optical coefficients. Nanostructured semiconductors, for example, nanowires (NWs), offer rich possibilities to tailor nonlinear optical properties and further enhance photonic device performance. In this study, it is demonstrated highly efficient second-harmonic generation in subwavelength wurtzite (WZ) GaAs NWs, reaching 2.5 x 10(-5) W-1, which is about seven times higher than their zincblende counterpart. This enhancement is shown to be predominantly caused by an axial built-in electric field induced by spontaneous polarization in the WZ lattice via electric field-induced second-order nonlinear susceptibility and can be controlled optically and potentially electrically. The findings, therefore, provide an effective strategy for enhancing and manipulating the nonlinear optical response in subwavelength NWs by utilizing lattice engineering.
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