Photonic Jet by a Near‐Unity‐Refractive‐Index Sphere on a Dielectric Substrate with High Index Contrast

Liyang Yue; Bing Yan; James Monks; Rakesh Dhama; Zengbo Wang; Oleg Minin; Igor Minin

doi:10.1002/andp.201800032

Photonic Jet by a Near‐Unity‐Refractive‐Index Sphere on a Dielectric Substrate with High Index Contrast

Liyang Yue, Bing Yan, James Monks, Rakesh Dhama, Zengbo Wang, Oleg Minin, Igor Minin

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Abstract

Photonic jets are normally generated in transmission mode and arerepresented as a spatially localized high-intensity region o n the shadow sideof a particle-lens, with a background to medium refractive index contrast of1.3–1.7 while illuminated by a plane wave. Here, a photonic jet is discoveredin the opposing plane wave propagation direction and lies in the area in theupper boundary of a near-unity refractive index sphere on a high refractiveindex dielectric substrate. The redistribution of the power ﬂow is i nhibitedduring the reﬂected wave passing the near-unity refractive index sphere. Thishas led to a unique eﬀect on the focus position and shape of the producedphotonic jet in reﬂection mode which can be maximally maintained near thesphere regardless of the modulation of the refractive index for the dielectricsubstrate material.

Original language	English
Article number	1800032
Number of pages	6
Journal	Annalen der Physik
Volume	530
Issue number	6
Early online date	22 May 2018
DOIs	https://doi.org/10.1002/andp.201800032
Publication status	Published - Jun 2018

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10.1002/andp.201800032

2018 Photonic jet by a near-unity-refractive-index sphereAccepted author manuscript, 1.24 MBLicence: CC BY-NC

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title = "Photonic Jet by a Near‐Unity‐Refractive‐Index Sphere on a Dielectric Substrate with High Index Contrast",

abstract = "Photonic jets are normally generated in transmission mode and arerepresented as a spatially localized high-intensity region o n the shadow sideof a particle-lens, with a background to medium refractive index contrast of1.3–1.7 while illuminated by a plane wave. Here, a photonic jet is discoveredin the opposing plane wave propagation direction and lies in the area in theupper boundary of a near-unity refractive index sphere on a high refractiveindex dielectric substrate. The redistribution of the power ﬂow is i nhibitedduring the reﬂected wave passing the near-unity refractive index sphere. Thishas led to a unique eﬀect on the focus position and shape of the producedphotonic jet in reﬂection mode which can be maximally maintained near thesphere regardless of the modulation of the refractive index for the dielectricsubstrate material.",

author = "Liyang Yue and Bing Yan and James Monks and Rakesh Dhama and Zengbo Wang and Oleg Minin and Igor Minin",

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T1 - Photonic Jet by a Near‐Unity‐Refractive‐Index Sphere on a Dielectric Substrate with High Index Contrast

AU - Yue, Liyang

AU - Yan, Bing

AU - Monks, James

AU - Dhama, Rakesh

AU - Wang, Zengbo

AU - Minin, Oleg

AU - Minin, Igor

PY - 2018/6

Y1 - 2018/6

N2 - Photonic jets are normally generated in transmission mode and arerepresented as a spatially localized high-intensity region o n the shadow sideof a particle-lens, with a background to medium refractive index contrast of1.3–1.7 while illuminated by a plane wave. Here, a photonic jet is discoveredin the opposing plane wave propagation direction and lies in the area in theupper boundary of a near-unity refractive index sphere on a high refractiveindex dielectric substrate. The redistribution of the power ﬂow is i nhibitedduring the reﬂected wave passing the near-unity refractive index sphere. Thishas led to a unique eﬀect on the focus position and shape of the producedphotonic jet in reﬂection mode which can be maximally maintained near thesphere regardless of the modulation of the refractive index for the dielectricsubstrate material.

AB - Photonic jets are normally generated in transmission mode and arerepresented as a spatially localized high-intensity region o n the shadow sideof a particle-lens, with a background to medium refractive index contrast of1.3–1.7 while illuminated by a plane wave. Here, a photonic jet is discoveredin the opposing plane wave propagation direction and lies in the area in theupper boundary of a near-unity refractive index sphere on a high refractiveindex dielectric substrate. The redistribution of the power ﬂow is i nhibitedduring the reﬂected wave passing the near-unity refractive index sphere. Thishas led to a unique eﬀect on the focus position and shape of the producedphotonic jet in reﬂection mode which can be maximally maintained near thesphere regardless of the modulation of the refractive index for the dielectricsubstrate material.

U2 - 10.1002/andp.201800032

DO - 10.1002/andp.201800032

M3 - Article

SN - 1521-3889

VL - 530

JO - Annalen der Physik

JF - Annalen der Physik

IS - 6

M1 - 1800032

ER -

Photonic Jet by a Near‐Unity‐Refractive‐Index Sphere on a Dielectric Substrate with High Index Contrast

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