274
J. Eur. Opt. Society-Rapid Publ. 21, 26( 2025)
45 Grimaldi IA, Berneschi S, Testa G, Baldini F, Nunzi Conti G, Bernini R, Polymer based planar coupling of selfassembled bottle microresonators, Appl. Phys. Lett. 105, 231114( 2014). https:// doi. org / 10.1063 / 1.4904013.
46 Gu G, Guo C, Cai Z, Xu H, Chen L, Fu H, Che K, Hong M, Sun S, Li F, Fabrication of ultraviolet-curable adhesive bottle-like microresonators by wetting and photocuring, Appl. Opt. 53, 7819( 2014). https:// doi. org / 10.1364 / AO. 53.007819.
47 Amorim VA, Frigenti G, Baldini F, Berneschi S, Farnesi D, Jorge PAS, Maia JM, Conti GN, Santos PSSD, Marques PVS, Integrated all-in-silica optofluidic platform based on microbubble resonator and femtosecond laser written surface waveguide, IEEE Sens. J. 24, 25573( 2024). https:// doi. org / 10.1109 / JSEN. 2024.3418203.
48 Tachikura M, Fusion mass-splicing for optical fibers using electric discharges between two pairs of electrodes, Appl. Opt. 23, 492( 1984). https:// doi. org / 10.1364 / AO. 23.000492.
49 Berneschi S, Farnesi D, Cosi F, Nunzi Conti G, Pelli S, Righini GC, Soria S, High Q silica microbubble resonators fabricated by arc discharge, Opt. Lett. 36, 3521( 2011). https:// doi. org / 10.1364 / OL. 36.003521.
50 Frigenti G, Arjmand M, Barucci A, Baldini F, Berneschi S, Farnesi D, Gianfreda M, Pelli S, Soria S, Aray A, Dumeige Y, Féron P, Conti GN, Coupling analysis of high Q resonators in add-drop configuration through cavity ringdown spectroscopy, J. Opt. 20, 065706( 2018). https:// doi. org / 10.1088 / 2040-8986 / aac459.
51 Armani DK, Kippenberg TJ, Spillane SM, Vahala KJ, Ultra-high-Q toroid microcavity on a chip, Nature 421, 925( 2003). https:// doi. org / 10.1038 / nature01371.
52 Balac S, Féron P, Whispering gallery modes volume computation in optical micro-spheres, Technical report, FOTON, UMR CNRS 6082, 2014.
53 Frigenti G, Ph. D. thesis, University of Florence, 2021. http:// hdl. handle. net / 2158 / 1237013
54 Guigot C, Leduc D, Lecieux Y, Classification of whispering gallery modes for cladded systems, Opt. Laser Technol. 174, 110572( 2024). https:// doi. org / 10.1016 / j. optlastec. 2024.110572.
55 Palma G, Falconi C, Nazabal V, Yano T, Kishi T, Kumagai T, Ferrari M, Prudenzano F, Modeling of whispering gallery modes for rare earth spectroscopic characterization, IEEE Photonics Technol. Lett. 27, 1861( 2015). https:// doi. org / 10.1109 / LPT. 2015.2443915.
56 Palma G, Falconi MC, Starecki F, Nazabal V, Yano T, Kishi T, Kumagai T, Prudenzano F, Novel double step approach for optical sensing via microsphere wgm resonance, Opt. Express 24, 26956( 2016). https:// doi. org / 10.1364 / OE. 24.026956.
57 Teraoka I, Arnold S, Vollmer F, Perturbation approach to resonance shifts of whispering-gallery modes in a dielectric microsphere as a probe of a surrounding medium, J. Opt. Soc. Am. B 20, 1937( 2003). https:// doi. org / 10.1364 / JOSAB. 20.001937.
58 Teraoka I, Arnold S, Theory of resonance shifts in TE and TM whispering gallery modes by nonradial perturbations for sensing applications, J. Opt. Soc. Am. B 23, 1381( 2006). https:// doi. org / 10.1364 / JOSAB. 23.001381. 59 Yariv A, Yeh P, Photonics: optical electronics in modern communications( Oxford University Press, Oxford, UK, 2023). 60 Louyer Y, Meschede D, Rauschenbeutel A, Tunable whispering-gallery-mode resonators for cavity quantum electrodynamics, Phys. Rev. A 72, 031801( 2005). https:// doi. org / 10.1103 / PhysRevA. 72.031801.
61 Bianucci P, Optical microbottle resonators for sensing, Sensors 16, 1841( 2016). https:// doi. org / 10.3390 / s16111841.
62 Soria S, Berneschi S, Barucci A, Cosci A, Farnesi D, Nunzi Conti G, Pelli S, Righini G, In Glass Micro- and Nanospheres: Physics and Applications, edited by Righini G( Jenny Stanford Publishing, 2019), p. 165.
63 Pastells C, Marco P, Merino D, Loza-Alvarez P, Quercioli F, Pasquardini L, Lunelli L, Pederzolli C, Daldoso N, Farnesi D, Berneschi S, Righini GC, Nunzi Conti G, Soria S, Two photon versus one photon fluorescence excitation in whispering gallery mode microresonators, J. Lumin. 170, 860( 2016). https:// doi. org / 10.1016 / j. jlumin. 2015.07.013.
64 Wang Y, Lang M, Lu J, Suo M, Du M, Hou Y, Wang X, Wang P, Demonstration of intracellular real-time molecular quantification via fret-enhanced optical microcavity, Nat Commun. 13, 6685( 2022). https:// doi. org / 10.1038 / s41467-022-34547-4.
65 Liu W, Chen YL, Tang S, Vollmer F, Xiao Y, Nonlinear sensing with whispering-gallery mode microcavities: from label-free detection to spectral fingerprinting, Nano Lett. 21, 1566( 2021). https:// doi. org / 10.1021 / acs. nanolett. 0c04090.
66 Foreman MR, Jin WL, Vollmer F, Optimizing detection limits in whispering gallery mode biosensing, Opt. Express 22, 5491( 2014). https:// doi. org / 10.1364 / OE. 22.005491.
67 Heylman KD, Thakkar N, Horak EH, Quillin SC, Cherqui C, Knapper KA, Masiello DJ, Goldsmith RH, Optical microresonators as single-particle absorption spectrometers, Nat. Photonics 10, 788( 2016). https:// doi. org / 10.1038 / nphoton. 2016.217.
68 Sun Y, Shopova S, Frye-Mason G, Fan X, Rapid chemicalvapor sensing using optofluidic ring resonators, Opt. Lett. 33, 788( 2008). https:// doi. org / 10.1364 / OL. 33.000788.
69 Arnold S, Keng D, Shopova SI, Holler S, Zurawsky W, Vollmer F, Whispering gallery mode carousel – a photonic mechanism for enhanced nanoparticle detection in biosensing, Opt. Express 17, 6230( 2009). https:// doi. org / 10.1364 / OE. 17.006230.
70 Braginsky V, Manukin A, Tikhonov M, Investigation of dissipative ponderomotove effects of electromagnetic radiation, Sov. Phys. JETP 31, 829( 1970).
71 Li B-B, Ou L, Lei Y, Liu Y-C, Cavity optomechanical sensing, Nanophotonics 10, 2799( 2021). https:// doi. org / 10.1515 / nanoph-2021-0256.
72 Yu W, Jiang W, Lin Q, Lu T, Cavity optomechanical spring sensing of single molecules, Nat. Commun. 7, 12311( 2016). https:// doi. org / 10.1038 / ncomms12311.
73 Tomes M, Carmon T, Photonic micro-electromechanical systems vibrating at X-band( 11 ghz) rates, Phys. Rev. Lett 102, 113601( 2009). https:// doi. org / 10.1103 / PhysRevLett. 102.113601.
74 Yang J, Qin T, Zhang F, Jiang XCX, Wan W, Multiphysical sensing of light, sound and microwave in a microcavity brillouin laser, Nanophotonics 9, 2915( 2020). https:// doi. org / 10.1515 / nanoph-2020-0176.
75 Giorgini A, Avino S, Malara P, Natale PD, Yannai M, Carmon T, Gagliardi G, Stimulated brillouin cavity optomechanics in liquid droplets, Phys. Rev. Lett. 120, 073902( 2018). https:// doi. org / 10.1103 / PhysRevLett. 120.073902.
76 Giorgini A, Avino S, Malara P, Natale PD, Gagliardi G, Opto-mechanical oscillator in a nanoliter droplet, Opt. Lett. 43, 3473( 2018). https:// doi. org / 10.1364 / OL. 43.003473.