Please use this identifier to cite or link to this item: https://doi.org/10.1088/1361-6463/ab77db
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dc.titleRecent progress in nanoplasmonics-based integrated optical micro/nano-systems
dc.contributor.authorDong, Bowei
dc.contributor.authorMa, Yiming
dc.contributor.authorRen, Zhihao
dc.contributor.authorLee, Chengkuo
dc.date.accessioned2020-06-02T03:53:16Z
dc.date.available2020-06-02T03:53:16Z
dc.date.issued2020-05-20
dc.identifier.citationDong, Bowei, Ma, Yiming, Ren, Zhihao, Lee, Chengkuo (2020-05-20). Recent progress in nanoplasmonics-based integrated optical micro/nano-systems. JOURNAL OF PHYSICS D-APPLIED PHYSICS 53 (21). ScholarBank@NUS Repository. https://doi.org/10.1088/1361-6463/ab77db
dc.identifier.issn0022-3727
dc.identifier.issn1361-6463
dc.identifier.urihttps://scholarbank.nus.edu.sg/handle/10635/168954
dc.description.abstract© 2020 IOP Publishing Ltd. Nanoplasmonics deals with the collective oscillation of electrons at the surface of metallic structures at the nanometer scale. It possesses advantages including nanofocusing of electromagnetic waves beyond the optical diffraction limit to enhance local electric field intensity and femtosecond-level relaxation times. With the advances in the fundamental understanding of nanoplasmonics in the past two decades as well as the development of nanofabrication technology, nanoplasmonics has found significant practical applications in life sciences, optical manipulations, and high-speed telecommunications. Many structures for nanoplasmonic optical antennas are demonstrated with a focus on improving electric field intensity and extending working wavelength range. The integration of microelectromechanical systems (MEMS) with nanoplasmonics enables dynamically tunable nanoplasmonic metasurfaces. Meanwhile, the introduction of nanoplasmonic metasurfaces into MEMS systems enhances the performance of MEMS photothermal devices, absorbers, emitters, and equips MEMS photonic device with selectivity. The accurate excitation of, and nanofocusing in nanoplasmonics structures are realized by using photonic waveguide input, while photonic waveguides equipped with nanoplasmonic features present higher modulation speed and perform photodetection/sensing functions in a much smaller footprint. Future developments will mainly involve further enhancements in concentrating the electric field, miniaturization of the well-defined nanoplasmonic structures, and realizing the full integration of nanoplasmonics, MEMS, photonic waveguides, and the advanced electronic system using the standard CMOS fabrication technology toward compact micro/nano-systems. With these developments, handheld portable sensors, compact tunable optical manipulation devices, ultra-high-speed chip-scale modulators with high production volume and low-cost are envisaged for healthcare, Internet-of-Things, and data center applications.
dc.language.isoen
dc.publisherIOP PUBLISHING LTD
dc.sourceElements
dc.subjectScience & Technology
dc.subjectPhysical Sciences
dc.subjectPhysics, Applied
dc.subjectPhysics
dc.subjectnanoplasmonics
dc.subjectoptical micro
dc.subjectnano-systems
dc.subjectbiochemical
dc.subjectphysical sensors
dc.subjectoptical manipulation
dc.subjecthigh-speed communication
dc.subjectENHANCED INFRARED-SPECTROSCOPY
dc.subjectWAVE-GUIDE
dc.subjectNANOANTENNA ARRAYS
dc.subjectSILICON PHOTONICS
dc.subjectABSORPTION SPECTROSCOPY
dc.subjectPLASMONIC NANOANTENNAS
dc.subjectINDUCED TRANSPARENCY
dc.subjectRAMAN-SPECTROSCOPY
dc.subjectALUMINUM NITRIDE
dc.subjectRING RESONATOR
dc.typeReview
dc.date.updated2020-06-01T04:44:13Z
dc.contributor.departmentDEPT OF COMPUTER SCIENCE
dc.contributor.departmentDEPT OF ELECTRICAL & COMPUTER ENGG
dc.description.doi10.1088/1361-6463/ab77db
dc.description.sourcetitleJOURNAL OF PHYSICS D-APPLIED PHYSICS
dc.description.volume53
dc.description.issue21
dc.published.statePublished
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