Nonlinear optical trapping effect with reverse saturable absorption

Zheng Zhu; Yuquan Zhang; Shuoshuo Zhang; Aurèle J.L. Adam; Changjun Min; Hendrik Paul Urbach; Xiaocong Yuan

doi:10.1117/1.AP.5.4.046006

Nonlinear optical trapping effect with reverse saturable absorption

Zheng Zhu, Yuquan Zhang^*, Shuoshuo Zhang, Aurèle J.L. Adam, Changjun Min, Hendrik Paul Urbach^*, Xiaocong Yuan^*

^*Corresponding author for this work

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

3 Citations (Scopus)

31 Downloads (Pure)

Abstract

Nonlinear responses of nanoparticles induce enlightening phenomena in optical tweezers. With the gradual increase in optical intensity, effects from saturable absorption (SA) and reverse SA (RSA) arise in sequence and thereby modulate the nonlinear properties of materials. In current nonlinear optical traps, however, the underlying physical mechanism is mainly confined within the SA regime because threshold values required to excite the RSA regime are extremely high. Herein, we demonstrate, both in theory and experiment, nonlinear optical tweezing within the RSA regime, proving that a fascinating composite trapping state is achievable at ultrahigh intensities through an optical force reversal induced through nonlinear absorption. Integrated results help in perfecting the nonlinear optical trapping system, thereby providing beneficial guidance for wider applications of nonlinear optics.

Original language	English
Article number	046006
Number of pages	8
Journal	Advanced Photonics
Volume	5
Issue number	4
DOIs	https://doi.org/10.1117/1.AP.5.4.046006
Publication status	Published - 2023

Keywords

nonlinear optical tweezers
optical force
reverse saturable absorption

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10.1117/1.AP.5.4.046006

046006_1Final published version, 2.41 MBLicence: CC BY

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title = "Nonlinear optical trapping effect with reverse saturable absorption",

abstract = "Nonlinear responses of nanoparticles induce enlightening phenomena in optical tweezers. With the gradual increase in optical intensity, effects from saturable absorption (SA) and reverse SA (RSA) arise in sequence and thereby modulate the nonlinear properties of materials. In current nonlinear optical traps, however, the underlying physical mechanism is mainly confined within the SA regime because threshold values required to excite the RSA regime are extremely high. Herein, we demonstrate, both in theory and experiment, nonlinear optical tweezing within the RSA regime, proving that a fascinating composite trapping state is achievable at ultrahigh intensities through an optical force reversal induced through nonlinear absorption. Integrated results help in perfecting the nonlinear optical trapping system, thereby providing beneficial guidance for wider applications of nonlinear optics. ",

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T1 - Nonlinear optical trapping effect with reverse saturable absorption

AU - Zhu, Zheng

AU - Zhang, Yuquan

AU - Zhang, Shuoshuo

AU - Adam, Aurèle J.L.

AU - Min, Changjun

AU - Urbach, Hendrik Paul

AU - Yuan, Xiaocong

PY - 2023

Y1 - 2023

N2 - Nonlinear responses of nanoparticles induce enlightening phenomena in optical tweezers. With the gradual increase in optical intensity, effects from saturable absorption (SA) and reverse SA (RSA) arise in sequence and thereby modulate the nonlinear properties of materials. In current nonlinear optical traps, however, the underlying physical mechanism is mainly confined within the SA regime because threshold values required to excite the RSA regime are extremely high. Herein, we demonstrate, both in theory and experiment, nonlinear optical tweezing within the RSA regime, proving that a fascinating composite trapping state is achievable at ultrahigh intensities through an optical force reversal induced through nonlinear absorption. Integrated results help in perfecting the nonlinear optical trapping system, thereby providing beneficial guidance for wider applications of nonlinear optics.

AB - Nonlinear responses of nanoparticles induce enlightening phenomena in optical tweezers. With the gradual increase in optical intensity, effects from saturable absorption (SA) and reverse SA (RSA) arise in sequence and thereby modulate the nonlinear properties of materials. In current nonlinear optical traps, however, the underlying physical mechanism is mainly confined within the SA regime because threshold values required to excite the RSA regime are extremely high. Herein, we demonstrate, both in theory and experiment, nonlinear optical tweezing within the RSA regime, proving that a fascinating composite trapping state is achievable at ultrahigh intensities through an optical force reversal induced through nonlinear absorption. Integrated results help in perfecting the nonlinear optical trapping system, thereby providing beneficial guidance for wider applications of nonlinear optics.

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KW - optical force

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Nonlinear optical trapping effect with reverse saturable absorption

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