Generating far-field orbital angular momenta from near-field optical chirality

Yuri Gorodetski; Aurélien Drezet; Cyriaque Genet; Thomas W. Ebbesen

doi:10.1103/PhysRevLett.110.203906

Generating far-field orbital angular momenta from near-field optical chirality

Yuri Gorodetski, Aurélien Drezet, Cyriaque Genet, Thomas W. Ebbesen

نتاج البحث: نشر في مجلة › مقالة › مراجعة النظراء

137 اقتباسات (Scopus)

ملخص

We demonstrate orbital angular momentum (OAM) transfer by chiral plasmonic nanostructures designed on both sides of a thin suspended metallic membrane. We show how far-field vortex beams with tunable OAM indices can be tailored through nanostructure designs. We reveal the crucial role played by the central aperture that connects the two sides of the membrane from which OAM selection rules are derived in perfect agreement with experimental data.

اللغة الأصلية	الإنجليزيّة
رقم المقال	203906
دورية	Physical Review Letters
مستوى الصوت	110
رقم الإصدار	20
المعرِّفات الرقمية للأشياء	https://doi.org/10.1103/PhysRevLett.110.203906
حالة النشر	نُشِر - 16 مايو 2013
منشور خارجيًا	نعم

الوصول إلى المستند

10.1103/PhysRevLett.110.203906

الملفات والروابط الأخرى

Link to publication in Scopus

قم بذكر هذا

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title = "Generating far-field orbital angular momenta from near-field optical chirality",

abstract = "We demonstrate orbital angular momentum (OAM) transfer by chiral plasmonic nanostructures designed on both sides of a thin suspended metallic membrane. We show how far-field vortex beams with tunable OAM indices can be tailored through nanostructure designs. We reveal the crucial role played by the central aperture that connects the two sides of the membrane from which OAM selection rules are derived in perfect agreement with experimental data.",

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AU - Drezet, Aurélien

AU - Genet, Cyriaque

AU - Ebbesen, Thomas W.

PY - 2013/5/16

Y1 - 2013/5/16

N2 - We demonstrate orbital angular momentum (OAM) transfer by chiral plasmonic nanostructures designed on both sides of a thin suspended metallic membrane. We show how far-field vortex beams with tunable OAM indices can be tailored through nanostructure designs. We reveal the crucial role played by the central aperture that connects the two sides of the membrane from which OAM selection rules are derived in perfect agreement with experimental data.

AB - We demonstrate orbital angular momentum (OAM) transfer by chiral plasmonic nanostructures designed on both sides of a thin suspended metallic membrane. We show how far-field vortex beams with tunable OAM indices can be tailored through nanostructure designs. We reveal the crucial role played by the central aperture that connects the two sides of the membrane from which OAM selection rules are derived in perfect agreement with experimental data.

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Generating far-field orbital angular momenta from near-field optical chirality

ملخص

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الملفات والروابط الأخرى

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