Giant optical birefringence in ensembles of semiconductor nanowires

O.L. Muskens; M.T. Borgström; E.P.A.M. Bakkers; J. Gómez Rivas

doi:10.1063/1.2402906

Giant optical birefringence in ensembles of semiconductor nanowires

O.L. Muskens, M.T. Borgström, E.P.A.M. Bakkers, J. Gómez Rivas

Photonics and Semiconductor Nanophysics

Research output: Contribution to journal › Article › Academic › peer-review

70 Citations (Scopus)

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Abstract

Giant birefringence is demonstrated in ensembles of randomly grown, vertically aligned semiconductor nanowires. Bottom-up fabrication of epitaxial semiconductor nanowires grown using the vapor-liquid-solid mechanism yields a highly anisotropic photonic metamaterial. The birefringence in the material is shown to depend on the nanowire length. Short nanowires with a volume filling fraction around 50% exhibit the strongest birefringence, in agreement with effective medium theories. A large difference is found between the in-plane and out-of-plane refractive indices of ¿n=0.8, exceeding by a factor of 75 the natural birefringence of quartz and by more than a factor of 2 that of inverted artificial materials. © 2006 American Institute of Physics. U7 - Export Date: 2 August 2010 U7 - Source: Scopus U7 - Art. No.: 233117

Original language	English
Article number	233117
Pages (from-to)	233117-1/3
Number of pages	3
Journal	Applied Physics Letters
Volume	89
Issue number	23
DOIs	https://doi.org/10.1063/1.2402906
Publication status	Published - 2006

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title = "Giant optical birefringence in ensembles of semiconductor nanowires",

abstract = "Giant birefringence is demonstrated in ensembles of randomly grown, vertically aligned semiconductor nanowires. Bottom-up fabrication of epitaxial semiconductor nanowires grown using the vapor-liquid-solid mechanism yields a highly anisotropic photonic metamaterial. The birefringence in the material is shown to depend on the nanowire length. Short nanowires with a volume filling fraction around 50% exhibit the strongest birefringence, in agreement with effective medium theories. A large difference is found between the in-plane and out-of-plane refractive indices of ¿n=0.8, exceeding by a factor of 75 the natural birefringence of quartz and by more than a factor of 2 that of inverted artificial materials. {\textcopyright} 2006 American Institute of Physics. U7 - Export Date: 2 August 2010 U7 - Source: Scopus U7 - Art. No.: 233117",

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AU - Muskens, O.L.

AU - Borgström, M.T.

AU - Bakkers, E.P.A.M.

AU - Gómez Rivas, J.

PY - 2006

Y1 - 2006

N2 - Giant birefringence is demonstrated in ensembles of randomly grown, vertically aligned semiconductor nanowires. Bottom-up fabrication of epitaxial semiconductor nanowires grown using the vapor-liquid-solid mechanism yields a highly anisotropic photonic metamaterial. The birefringence in the material is shown to depend on the nanowire length. Short nanowires with a volume filling fraction around 50% exhibit the strongest birefringence, in agreement with effective medium theories. A large difference is found between the in-plane and out-of-plane refractive indices of ¿n=0.8, exceeding by a factor of 75 the natural birefringence of quartz and by more than a factor of 2 that of inverted artificial materials. © 2006 American Institute of Physics. U7 - Export Date: 2 August 2010 U7 - Source: Scopus U7 - Art. No.: 233117

AB - Giant birefringence is demonstrated in ensembles of randomly grown, vertically aligned semiconductor nanowires. Bottom-up fabrication of epitaxial semiconductor nanowires grown using the vapor-liquid-solid mechanism yields a highly anisotropic photonic metamaterial. The birefringence in the material is shown to depend on the nanowire length. Short nanowires with a volume filling fraction around 50% exhibit the strongest birefringence, in agreement with effective medium theories. A large difference is found between the in-plane and out-of-plane refractive indices of ¿n=0.8, exceeding by a factor of 75 the natural birefringence of quartz and by more than a factor of 2 that of inverted artificial materials. © 2006 American Institute of Physics. U7 - Export Date: 2 August 2010 U7 - Source: Scopus U7 - Art. No.: 233117

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DO - 10.1063/1.2402906

M3 - Article

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SP - 233117-1/3

JO - Applied Physics Letters

JF - Applied Physics Letters

IS - 23

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ER -

Giant optical birefringence in ensembles of semiconductor nanowires

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