Subwavelength optical trapping and transporting using a Bloch mode

Lin Wang; Yongyin Cao; Bojian Shi; Hang Li; Rui Feng; Fangkui Sun; Lih Y. Lin; Weiqiang Ding

doi:10.1364/OL.389008

Subwavelength optical trapping and transporting using a Bloch mode

Lin Wang
, Yongyin Cao
, Bojian Shi
, Hang Li
, Rui Feng
, Fangkui Sun
, Lih Y. Lin
, Weiqiang Ding^*

^*Corresponding author for this work

School of Physics, Harbin Institute of Technology
University of Washington

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

7 Scopus citations

Abstract

Multi-functional optical manipulations, including optical trapping and transporting of subwavelength particles, are proposed using the Bloch modes in a dielectric photonic structure. We show that the Bloch modes in a periodic structure can generate a series of subwavelength trapping wells that are addressable by tuning the incident wavelength. This feature enables efficient optical trapping and transportation in a peristaltic way. Since we are using the guiding Bloch mode in a dielectric structure, rather than using plasmonic or dielectric resonant cavities, these operations are wide band and free from joule loss. The Bloch mode in a simple periodic dielectric structure provides a new platform for multi-functional optical operations and may find potential applications in nanophotonics and biomedicine.

Original language	English
Pages (from-to)	1886-1889
Number of pages	4
Journal	Optics Letters
Volume	45
Issue number	7
DOIs	https://doi.org/10.1364/OL.389008
State	Published - 1 Apr 2020
Externally published	Yes

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title = "Subwavelength optical trapping and transporting using a Bloch mode",

abstract = "Multi-functional optical manipulations, including optical trapping and transporting of subwavelength particles, are proposed using the Bloch modes in a dielectric photonic structure. We show that the Bloch modes in a periodic structure can generate a series of subwavelength trapping wells that are addressable by tuning the incident wavelength. This feature enables efficient optical trapping and transportation in a peristaltic way. Since we are using the guiding Bloch mode in a dielectric structure, rather than using plasmonic or dielectric resonant cavities, these operations are wide band and free from joule loss. The Bloch mode in a simple periodic dielectric structure provides a new platform for multi-functional optical operations and may find potential applications in nanophotonics and biomedicine.",

author = "Lin Wang and Yongyin Cao and Bojian Shi and Hang Li and Rui Feng and Fangkui Sun and Lin, \{Lih Y.\} and Weiqiang Ding",

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T1 - Subwavelength optical trapping and transporting using a Bloch mode

AU - Wang, Lin

AU - Cao, Yongyin

AU - Shi, Bojian

AU - Li, Hang

AU - Feng, Rui

AU - Sun, Fangkui

AU - Lin, Lih Y.

AU - Ding, Weiqiang

PY - 2020/4/1

Y1 - 2020/4/1

N2 - Multi-functional optical manipulations, including optical trapping and transporting of subwavelength particles, are proposed using the Bloch modes in a dielectric photonic structure. We show that the Bloch modes in a periodic structure can generate a series of subwavelength trapping wells that are addressable by tuning the incident wavelength. This feature enables efficient optical trapping and transportation in a peristaltic way. Since we are using the guiding Bloch mode in a dielectric structure, rather than using plasmonic or dielectric resonant cavities, these operations are wide band and free from joule loss. The Bloch mode in a simple periodic dielectric structure provides a new platform for multi-functional optical operations and may find potential applications in nanophotonics and biomedicine.

AB - Multi-functional optical manipulations, including optical trapping and transporting of subwavelength particles, are proposed using the Bloch modes in a dielectric photonic structure. We show that the Bloch modes in a periodic structure can generate a series of subwavelength trapping wells that are addressable by tuning the incident wavelength. This feature enables efficient optical trapping and transportation in a peristaltic way. Since we are using the guiding Bloch mode in a dielectric structure, rather than using plasmonic or dielectric resonant cavities, these operations are wide band and free from joule loss. The Bloch mode in a simple periodic dielectric structure provides a new platform for multi-functional optical operations and may find potential applications in nanophotonics and biomedicine.

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DO - 10.1364/OL.389008

M3 - 文章

C2 - 32236024

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SN - 0146-9592

VL - 45

SP - 1886

EP - 1889

JO - Optics Letters

JF - Optics Letters

IS - 7

ER -

Subwavelength optical trapping and transporting using a Bloch mode

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