Continuous tuning of unidirectional emission wavelength by bending a notched-elliptical polymer microdisk

Xiaoming Ma; Heming Wei; Nianqiang Li; Shuzhen Fan; Changfeng Fang; Jiaxiong Fang; Sridhar Krishnaswamy

doi:10.1364/OE.439593

Continuous tuning of unidirectional emission wavelength by bending a notched-elliptical polymer microdisk

Xiaoming Ma, Heming Wei, Nianqiang Li, Shuzhen Fan, Changfeng Fang, Jiaxiong Fang, Sridhar Krishnaswamy

Mechanical Engineering

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

Abstract

An approach of continuously tunable unidirectional emission through bending a notched-elliptical polymer microdisk is proposed. The characteristics of the bending-dependent action are carefully analyzed, and the resonance wavelength for unidirectional emission can be tuned continuously through bending the device. Such a whispering-gallery-mode microresonator enables unidirectional emission with ultra-low divergence, of which the emission efficiency and Q factor are stabilized, demonstrating the whole structure is robust and relatively insensitive within a certain bending angle range. A maximum resonance wavelength shift of ∼100 nm and Q factor of 1500 can be achieved with the total size of the microdisk less than 10 µm. This kind of microresonator is promising for applications in multilevel integrated photonics circuits and may open the door to new functionalities of resonator devices, from sensing to optical amplification.

Original language	English (US)
Pages (from-to)	34370-34377
Number of pages	8
Journal	Optics Express
Volume	29
Issue number	21
DOIs	https://doi.org/10.1364/OE.439593
State	Published - Oct 11 2021

Funding

Funding. National Natural Science Foundation of China (62005153); Natural Science Foundation of Shanghai (20ZR1420300); 111 Project (D20031); Natural Science Foundation of Shandong Province (ZR2017MF038).

ASJC Scopus subject areas

Atomic and Molecular Physics, and Optics

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10.1364/OE.439593

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title = "Continuous tuning of unidirectional emission wavelength by bending a notched-elliptical polymer microdisk",

abstract = "An approach of continuously tunable unidirectional emission through bending a notched-elliptical polymer microdisk is proposed. The characteristics of the bending-dependent action are carefully analyzed, and the resonance wavelength for unidirectional emission can be tuned continuously through bending the device. Such a whispering-gallery-mode microresonator enables unidirectional emission with ultra-low divergence, of which the emission efficiency and Q factor are stabilized, demonstrating the whole structure is robust and relatively insensitive within a certain bending angle range. A maximum resonance wavelength shift of ∼100 nm and Q factor of 1500 can be achieved with the total size of the microdisk less than 10 µm. This kind of microresonator is promising for applications in multilevel integrated photonics circuits and may open the door to new functionalities of resonator devices, from sensing to optical amplification.",

author = "Xiaoming Ma and Heming Wei and Nianqiang Li and Shuzhen Fan and Changfeng Fang and Jiaxiong Fang and Sridhar Krishnaswamy",

note = "Funding Information: Funding. National Natural Science Foundation of China (62005153); Natural Science Foundation of Shanghai (20ZR1420300); 111 Project (D20031); Natural Science Foundation of Shandong Province (ZR2017MF038). Publisher Copyright: {\textcopyright} 2021 Optical Society of America",

year = "2021",

month = oct,

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doi = "10.1364/OE.439593",

language = "English (US)",

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T1 - Continuous tuning of unidirectional emission wavelength by bending a notched-elliptical polymer microdisk

AU - Ma, Xiaoming

AU - Wei, Heming

AU - Li, Nianqiang

AU - Fan, Shuzhen

AU - Fang, Changfeng

AU - Fang, Jiaxiong

AU - Krishnaswamy, Sridhar

N1 - Funding Information: Funding. National Natural Science Foundation of China (62005153); Natural Science Foundation of Shanghai (20ZR1420300); 111 Project (D20031); Natural Science Foundation of Shandong Province (ZR2017MF038). Publisher Copyright: © 2021 Optical Society of America

PY - 2021/10/11

Y1 - 2021/10/11

N2 - An approach of continuously tunable unidirectional emission through bending a notched-elliptical polymer microdisk is proposed. The characteristics of the bending-dependent action are carefully analyzed, and the resonance wavelength for unidirectional emission can be tuned continuously through bending the device. Such a whispering-gallery-mode microresonator enables unidirectional emission with ultra-low divergence, of which the emission efficiency and Q factor are stabilized, demonstrating the whole structure is robust and relatively insensitive within a certain bending angle range. A maximum resonance wavelength shift of ∼100 nm and Q factor of 1500 can be achieved with the total size of the microdisk less than 10 µm. This kind of microresonator is promising for applications in multilevel integrated photonics circuits and may open the door to new functionalities of resonator devices, from sensing to optical amplification.

AB - An approach of continuously tunable unidirectional emission through bending a notched-elliptical polymer microdisk is proposed. The characteristics of the bending-dependent action are carefully analyzed, and the resonance wavelength for unidirectional emission can be tuned continuously through bending the device. Such a whispering-gallery-mode microresonator enables unidirectional emission with ultra-low divergence, of which the emission efficiency and Q factor are stabilized, demonstrating the whole structure is robust and relatively insensitive within a certain bending angle range. A maximum resonance wavelength shift of ∼100 nm and Q factor of 1500 can be achieved with the total size of the microdisk less than 10 µm. This kind of microresonator is promising for applications in multilevel integrated photonics circuits and may open the door to new functionalities of resonator devices, from sensing to optical amplification.

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Continuous tuning of unidirectional emission wavelength by bending a notched-elliptical polymer microdisk

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ASJC Scopus subject areas

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