2018
DOI: 10.1109/jlt.2017.2772260
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Tunable Fano-Like Lineshape in an Adiabatic Tapered Fiber Coupled to a Hollow Bottle Microresonator

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Cited by 18 publications
(7 citation statements)
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“…In the experiment, we achieved the tuning of the Fano-like resonance and switched it among the Lorentzian, Fano, and EIT types by bending and twisting the device. Compared with other Fanolike resonance schemes achieved in photonic structures [1], [9]- [11], the proposed scheme can generate Fano-like resonance with only an in-line fiber structure, enabling a compact, stable and robust device. By merging the advantages of all-in-fiber device, this hybrid structure with fiber interferometer and grating shows great promises for Fano-like resonance based signal processing, multi-parameter measurement simultaneously, etc.…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…In the experiment, we achieved the tuning of the Fano-like resonance and switched it among the Lorentzian, Fano, and EIT types by bending and twisting the device. Compared with other Fanolike resonance schemes achieved in photonic structures [1], [9]- [11], the proposed scheme can generate Fano-like resonance with only an in-line fiber structure, enabling a compact, stable and robust device. By merging the advantages of all-in-fiber device, this hybrid structure with fiber interferometer and grating shows great promises for Fano-like resonance based signal processing, multi-parameter measurement simultaneously, etc.…”
Section: Discussionmentioning
confidence: 99%
“…And electromagnetically induced transparency (EIT) is a result of Fano interference that requires coupling of a discrete transition to a continuum, creating a narrow transparency window due to elimination of the resonant absorption [8]. A variety of optical microresonators with narrow resonance linewidths such as chip-integrated microrings and microtoroids [9], individual microspheres [10], and microbottles [1], [11], have been coupled with interferometers of wide spectrum to form Fano-like resonance lineshapes. However, to access resonant modes in these microresonators, tapered microfibers or lensed fibers are essential, which make the coupling configurations rigorous and require the strict coupling gap and phase matching condition [12], [13].…”
Section: Introductionmentioning
confidence: 99%
“…[57] Considered for applications in optofluidic platforms and biosensing, a hollow bottle microresonator coupled with an adiabatic tapered fiber is utilized to generate Fano transmission lineshapes, which can be converted to the EIT types. [58] The hollow bottle microresonator is fabricated based on a pressurized silica capillary, [59] and theorical and experimental analysis shows effects of cavity position and incident light polarization in modifying transmission lineshapes. In a different hollow microbottle resonator, [60] the authors observed EIT-like transmission and pulse delay using the method of mode coupling or superposition of orthogonally polarized TE-TM WGMs.…”
Section: Electromagnetically Induced Transparencymentioning
confidence: 99%
“…Since these types of resonators primarily confine WGM at their respective equatorial planes, they are generally considered as a two-dimensional resonator [7]. Subsequently, the study of resonators has been expanded to microcylindrical [8] and microbottle resonators [9] for their distinctive manner in confining WGM. Among them, the microbottle resonator is considered as a three-dimensional resonator due to the presence of two turning points [10,11].…”
Section: Introductionmentioning
confidence: 99%