High sensitivity cascaded helical-core fiber SPR sensors

[1] L. C. Oliveira, A. M. N. Lima, C. Thirstrup, H. F. Neff. Surface Plasmon Resonance Sensors: A Materials Guide to Design, Characterization, Optimization, and Usage(2019).

[2] R. B. Schasfoort. Handbook of Surface Plasmon Resonance(2017).

[3] E. Kretschmann, H. Raether. Notizen: radiative decay of non radiative surface plasmons excited by light. Zeitschrift für Naturforschung A, 23, 2135(1968).

[4] B. D. Gupta, R. Kant. Recent advances in surface plasmon resonance based fiber optic chemical and biosensors utilizing bulk and nanostructures. Opt. Laser Technol., 101, 144(2018).

[5] P. Jia, Z. Yang, J. Yang, H. Ebendorff-Heidepriem. Quasiperiodic nanohole arrays on optical fibers as plasmonic sensors: fabrication and sensitivity determination. ACS Sens., 1, 1078(2016).

[6] S. Qian, M. Lin, W. Ji, H. Yuan, Y. Zhang, Z. Jing, J. Zhao, J.-F. Masson, W. Peng. Boronic acid functionalized Au nanoparticles for selective microRNA signal amplification in fiber-optic surface plasmon resonance sensing system. ACS Sens., 3, 929(2018).

[7] F. Chiavaioli, P. Zubiate, I. Del Villar, C. R. Zamarreño, A. Giannetti, S. Tombelli, C. Trono, F. J. Arregui, I. R. Matias, F. Baldini. Femtomolar detection by nanocoated fiber label-free biosensors. ACS Sens., 3, 936(2018).

[8] D. Gong, Y. Yuan, L. Liang, M. Yang. Theoretical study on negative permittivity of the material producing sharp surface plasmon resonance dips. Chin. Opt. Lett., 17, 042801(2019).

[9] J.-H. Qu, A. Dillen, W. Saeys, J. Lammertyn, D. Spasic. Advancements in SPR biosensing technology: an overview of recent trends in smart layers design, multiplexing concepts, continuous monitoring and in vivo sensing. Anal. Chim. Acta, 1104, 10(2020).

[10] Y. Zhao, Q.-L. Wu, Y.-N. Zhang. Simultaneous measurement of salinity, temperature and pressure in seawater using optical fiber SPR sensor. Measurement, 148, 106792(2019).

[11] M. del Carmen Alonso-Murias, J. S. Vel, D. Monzon-Hernandez. SPR fiber tip sensor for the simultaneous measurement of refractive index, temperature, and level of a liquid. J. Lightwave Technol., 37, 4808(2019).

[12] Y. Moreno, Q. Song, Z. Xing, Y. Sun, Z. Yan. Hybrid tilted fiber gratings-based surface plasmon resonance sensor and its application for hemoglobin detection. Chin. Opt. Lett., 18, 100601(2020).

[13] Y. Zhang, P. Liang, Y. Wang, Y. Zhang, Z. Liu, Y. Wei, Z. Zhu, E. Zhao, J. Yang, L. Yuan. Cascaded distributed multichannel fiber SPR sensor based on gold film thickness adjustment approach. Sens. Actuat. A: Phys., 267, 526(2017).

[14] Y. Yuan, L. Wang, J. Huang. Theoretical investigation for two cascaded SPR fiber optic sensors. Sens. Actuat. B: Chem., 161, 269(2012).

[15] Z. Liu, Y. Wei, Y. Zhang, Y. Wang, E. Zhao, Y. Zhang, J. Yang, C. Liu, L. Yuan. A multi-channel fiber SPR sensor based on TDM technology. Sens. Actuat. B: Chem., 226, 326(2016).

[16] L. Liu, Z. Liu, Y. Zhang, S. Liu. V-shaped micro-structure optical fiber surface plasmon resonance sensor for the simultaneous measurement of the refractive index and temperature. Opt. Lett., 44, 5093(2019).

[17] Y. Wei, Y. Su, C. Liu, Y. Zhang, X. Nie, Z. Liu, Y. Zhang, F. Peng. Segmented detection SPR sensor based on seven-core fiber. Opt. Express, 25, 21841(2017).

[18] E. Siyu, Y.-N. Zhang, B. Han, W. Zheng, Q.-L. Wu, H.-K. Zheng. Two-channel surface plasmon resonance sensor for simultaneous measurement of seawater salinity and temperature. IEEE Trans. Instrum. Meas., 69, 7191(2020).

[19] M. D. Baiad, R. Kashyap. Concatenation of surface plasmon resonance sensors in a single optical fiber using tilted fiber Bragg gratings. Opt. Lett., 40, 115(2015).

[20] X. Chen, J. Xu, X. Zhang, T. Guo, B.-O. Guan. Wide range refractive index measurement using a multi-angle tilted fiber Bragg grating. IEEE Photon. Technol. Lett., 29, 719(2017).

[21] X. Wang, H. Deng, L. Yuan. Highly sensitive flexible SPR sensor based on side-polishing helical-core fiber: theoretical analysis and experimental demonstration. Adv. Photon. Res., 2, 2000054(2021).

[22] Y. N. Kulchin, O. Vitrik, A. Dyshlyuk. Analysis of surface plasmon resonance in bent single-mode waveguides with metal-coated cladding by eigenmode expansion method. Opt. Express, 22, 22196(2014).

[23] A. V. Dyshlyuk, O. B. Vitrik, Y. N. Kulchin, E. V. Mitsai, A. B. Cherepakhin, C. Branger, H. Brisset, T. V. Iordache, A. Sarbu. Numerical and experimental investigation of surface plasmon resonance excitation using whispering gallery modes in bent metal-clad single-mode optical fiber. J. Lightwave Technol., 35, 5425(2017).

[24] R. Slavı́k, J. Homola, J. Čtyroký. Single-mode optical fiber surface plasmon resonance sensor. Sens. Actuat. B: Chem., 54, 74(1999).

[25] D. P. Duarte, N. Alberto, L. Bilro, R. Nogueira. Theoretical design of a high sensitivity SPR-based optical fiber pressure sensor. J. Lightwave Technol., 33, 4606(2015).