[1] Homola J. Surface plasmon resonance sensors for detection of chemical and bio-logical species. Chem Rev 2008;108(2):462–93.

[2] Kretschmann E, Raether H. Radiative decay of non radiative surface plasmons ex-cited by light. Z Naturforschung A 1968;23(12):2135–6.

[3] Otto A. Excitation of nonradiative surface plasma waves in silver by the method offrustrated total reflection. Z Phys A Hadrons Nuclei 1968;216(4):398–410.

[4] Jorgenson R, Yee S. Afiber-optic chemical sensor based on surface plasmon re-sonance. Sens Actuators B Chem 1993;12(3):213–20.

[5] Kawasaki D, et al. Core-shell-structured gold nanocone array for label-free DNAsensing. ACS Appl Nano Mater 2019.

[6] McFarland AD, Van Duyne RP. Single silver nanoparticles as real-time opticalsensors with zeptomole sensitivity. Nano Lett 2003;3(8):1057–62.

[7] Gupta B, Shrivastav A, Usha S. Surface plasmon resonance-basedfiber optic sensorsutilizing molecular imprinting. Sensors 2016;16(9):1381.

[8] Couture M, Zhao SS, Masson J. Modern surface plasmon resonance for bioanalyticsand biophysics. Phys Chem Chem Phys 2013;15(27):11190–216.

[9] Cennamo N, et al. Refractive index sensing through surface plasmon resonance inlight-diffusingfibers. Appl Sci 2018;8(7):1172.

[10]Liu K, et al. Theoretical modeling of a coupled plasmon waveguide resonance sensorbased on multimode opticalfiber. Opt Commun 2018;410:552–8.

[11]Amendola V, et al. Surface plasmon resonance in gold nanoparticles: a review. JPhys Condensed Matter 2017;29(20):203002.

[12]Long Y, Jing C. Localized surface plasmon resonance based nanobiosensors. 2014.

[13] Live LS et al. Enhanced SPR sensing based on micropatterned thinfilms. InPlasmonics in biology and medicine VIII; 2011.

[14]Willets KA, Van Duyne RP. Localized surface plasmon resonance spectroscopy andsensing. Annu Rev Phys Chem 2007;58:267–97.

[15]Chen J, et al. Optical magneticfield enhancement by strong coupling in metama-terials. J Lightwave Technol 2018;36(13):2791–5.

[16]Chen J, et al. Enhancing the magnetic plasmon resonance of three-dimensionaloptical metamaterials via strong coupling for high-sensitivity sensing. J LightwaveTechnol 2018;36(16):3481–5.

[17]Chen J, et al. Engineering the magnetic plasmon resonances of metamaterials forhigh-quality sensing. Opt Express 2017;25(4):3675–81.

[18]ChenJ, et al. Optical cavity-enhanced localized surface plasmon resonance for high-quality sensing. IEEE Photon Technol Lett 2018;30(8):728–31.

[19]Liu P, et al. An ultra-low detection-limit optofluidic biosensor with integrated dual-channel Fabry-Pérot cavity. Appl Phys Lett 2013;102(16):163701.

[20]Liu P, et al. An optofluidics biosensor consisted of high-finesse Fabry-Pérot re-sonator and micro-fluidic channel. Appl Phys Lett 2012;100(23):233705.

[21]Maier SA. Plasmonics: fundamentals and applications. 2007.

[22]Pang L, et al. Spectral sensitivity of two-dimensional nanohole array surfaceplasmon polariton resonance sensor. Appl Phys Lett 2007;91(12):123112.

[23]Dolev I, Epstein I, Arie A. Surface-plasmon holographic beam shaping. Phys RevLett 2012;109(20):203903.

[24] Kasap SO. Optoelectronics and photonics: principles and practices. 340.

[25]Yakubovsky DI, et al. Optical constants and structural properties of thin goldfilms.Opt Express 2017;25(21):25574–87.

[26] Raether H. Surface plasmons on smooth surfaces. In Surface plasmons on smoothand rough surfaces and on gratings anonymous; 1988.

[27]Michel D, Xiao F, Alameh K. A compact,flexiblefiber-optic surface plasmon re-sonance sensor with changeable sensor chips. Sens Actuators B Chem2017;246:258–61.

[28]Novotny L, Hecht B. Principles of nano-optics. 2012.

[29]Yim S, et al. Transferrable plasmonic au thinfilm containing sub-20 nm nanoholearray constructed via high-resolution polymer self-assembly and nanotransferprinting. ACS Appl Mater Interfaces 2018;10(3):2216–23.

[30]Suzuki H, et al. Effects of goldfilm thickness on spectrum profile and sensitivity of amultimode-optical-fiber SPR sensor. Sens Actuators B Chem 2008;132(1):26–33.

[31]Iga M, Seki A, Watanabe K. Gold thickness dependence of SPR-based hetero-corestructured opticalfiber sensor. Sens Actuators B Chem 2005;106(1):363–8.

[32]Sharma AK, Gupta B. On the performance of different bimetallic combinations insurface plasmon resonance basedfiber optic sensors. J Appl Phys2007;101(9):093111.

[33]Kaminska I, et al. Near-fieldand far-field sensitivities of LSPR sensors. J Phys ChemC 2015;119(17):9470–6.

[34]Read T, Olkhov RV, Shaw AM. Measurement of the localised plasmon penetrationdepth for gold nanoparticles using a non-invasive bio-stacking method. Phys ChemChem Phys 2013;15(16):6122–7.Fig. 9.The calibration curve of the resonance wavelengths as a function of refractive indices of selected substances. The linear linefitted our data with R2of 0.9854.The average sensitivity of 5847.2 is calculated by the slope of the curve.A. Agharazy Dormeny, et al.Results in Physics 16 (2020) 1028698