[1] GANGWAR R K, SINGH V K. Highly sensitive surface plasmon resonance based D-shaped photonic crystal fiber refractive index sensor[J]. Plasmonics, 2017, 12: 1367-1372.

[2] JING J, WANG Q, WANG B. Refractive index sensing characteristics of carbon nanotube-deposited photonic crystal fiber SPR sensor[J]. Optical fiber technology, 2018, 43:137-144.

[3] YANG M, LONG S, ZHU W, et al. Design and optimization of nano-column array based surface plasmon resonance sensor[J]. Optical and quantum electronics, 2017, 49:31.

[4] LUAN N, WANG R, YAO J. Surface plasmon resonance sensor based on exposed-core microstructured optical fibers[J]. Electronics letters, 2015, 51(9): 714-715.

[5] LUAN N, YAO J. Surface plasmon resonance sensor based on exposed-core microstructured optical fiber placed with a silver wire[J]. IEEE photonics journal, 2016, 8(1):1-8.

[6] ZHAO J, CAO S, LIAO C, et al. Surface plasmon resonance refractive sensor based on silver-coated side-polished fiber[J]. Sensors and actuators B:chemical, 2016, 230:206-211.

[7] FU H W, ZHANG M, DING J J, et al. A high sensitivity D-type surface plasmon resonance optical fiber refractive index sensor with graphene coated silver nano-columns[J]: Optical fiber technology, 2019, 48: 34-39.

[8] WANG G Y, LU Y, DUAN L C, et al. A refractive index sensor based on PCF with ultra-wide detection range[J]. IEEE journal on selected topics in quantum electronics, 2021, 27:1-8.

[9] ZHANG W, LIAN Z G, TREVOR B, et al. A refractive index sensor based on a D-shaped photonic crystal fiber with a nanoscale gold belt[J]. Optical and quantum electronics, 2018, 50:29.

[10] LIU C, YANG L, LU X, et al. Mid-infrared surface plasmon resonance sensor based on photonic crystal fibers[J]. Optics express, 2017, 25:14227-14237.

[11] WANG J, LIU C, WANG F, et al. Surface plasmon resonance sensor based on coupling effects of dual photonic crystal fibers for low refractive indexes detection[J]. Results in physics, 2020:103240.

[12] SHARMA A K, GUPTA B D. On the performance of different bimetallic combinations in surface plasmon resonance based fiber optic sensors[J]. Journal of applied physics, 2007, 101(9Pt1):299.

[13] LIU Y C, LI S G, et al. Surface plasmon resonance induced high sensitivity temperature and refractive index sensor based on evanescent field enhanced photonic crystal fiber[J]. Journal of lightwave technology, 2019, 38(4):919-928.

[14] PANDEY A K, SHARMA A K. Simulation and analysis of plasmonic sensor in NIR with fluoride glass and graphene layer[J]. Photonics and nanostructuresfundamentals and applications, 2018, 28:94-99.

[15] PAUL A K, SARKAR A K, KHALEQUE A. Dual-core photonic crystal fiber plasmonic refractive index sensor:a numerical analysis[J]. Photonic sensors, 2019, 9(2):11.

[16] WANG J, LIU C, WANG F, et al. Surface plasmon resonance sensor based on coupling effects of dual photonic crystal fibers for low refractive indexes detection[J]. Results in physics, 2020:103240.

[17] YANG H, WANG G, LU Y, et al. Highly sensitive refractive index sensor based on SPR with silver and titanium dioxide coating[J]. Optical and quantum electronics, 2021, 53(6):341.

[18] ISLAM M R, JAMIL M A, ZAMAN S U, et al. Design and analysis of birefringent SPR based PCF biosensor with ultra-high sensitivity and low loss[J]. Optikinternational journal for light and electron optics, 2020, 221:165311.

[19] LI B, ZHANG F, YAN X, et al. Numerical analysis of dual-parameter optical fiber sensor with large measurement range based on surface plasmon resonance[J]. IEEE sensors journal, 2021, 21(9): 10719-10725.

[20] MOLLAH M A, ISLAM M S. Novel single hole exposed-suspended core localized surface plasmon resonance sensor[J]. IEEE sensors journal, 2021, 21(3): 2813-2820.