马一巍

2018年至2023年：哈尔滨工程大学   硕博连读

光纤传感；仿生传感器；微结构加工

1．JOSA B、Optics Express、Photonics等国际学术期刊审稿人
2．Photonics特刊客座编辑

1.马一巍，赵敏，田甜，苏春博，代子朝，耿涛，孙伟民. 一种D形光纤耦合器的制备方法. ZL 20211617288.3
2.马一巍，易杨，赵敏，李晓飏，苏春博，孙静，耿涛，孙伟民，苑立波.一种基于氢氧焰加热的自变形芯光纤的制备方法，ZL202110997851.8

SCI论文：
[1] Su C B, Yang W J, Tong D, Zhu Q F, Ma Y W, Geng T, Yuan L B. A Highly Sensitive Sensor Based on Combination of Magnetostrictive Material and Vernier Effect for Magnetic Field Measurement[J]. Journal of Lightwave Technology, 2024, 42:485-492.
[2] Zhu Q F, Su C B, Ma Y W, Mu Z H, Zhu Y T, Sun W M, Geng T. A highly sensitive torsion sensor based on upright-inverted alternating triangular prism structure on the single-multi-single mode fiber[J]. Sensors and Actuators a-Physical ,2024, 366.
[3] Li Y Y, Li M, Tian T, Dai Z Z, Ma Y W, Li S, Lu C L, Geng T. A Strain Sensor Based on Core-Distortion Long-Period Fiber Grating[J]. IEEE Photonics Technology Letters, 2023, 35:1339-1342.
[4] Geng T, Su C B, Zhang S, Ma Y W. Recent progress in embedded LPFGs[J]. Measurement, 2023, 222.
[5] Yang W J, Su C B, Tong D, Geng T, Ma Y W, Yuan L B. Augmented Sensitive Strain Sensor With Arched Core Based on MSM Structure[J]. IEEE Sensors Journal, 2023, 23:24500-24505.
[6] Dai Z Z, Mu Z H, Su C B, Li Y Y, Ma Y W, Geng T, Song L. A highly sensitive strain fiber sensor based on waved core structure[J]. Optics and Laser Technology, 2024, 169.
[7] Tian T, Li M, Ma Y W, Lu C L, Li S, Geng T, Yuan L B. Sensitivity-Enhanced and Compact Refractometer Based on Double Assembled Long-Period Fiber Gratings With Tapered Fiber Structure[J]. IEEE Sensors Journal, 2023, 23:21279-21284.
[8] Tian T, Li M, Ma Y W, Geng T, Yuan L B. Point-coated long-period fiber grating for temperature measurement[J]. Optics letters, 2023, 48:2785-2788.
[9] Li Y Y, Ma Y W, Tian T, Tan H Y, Sun C T, Geng T, Yuan L B. A Highly Sensitive Curvature Sensor Based on Omega-Shaped Long-Period Fiber Grating[J]. IEEE Sensors Journal, 2023, 23:8410-8415.
[10] Ma Y W, Dai Z Z, Su C B, Tian T, Liu Z H, Sun W M, Geng T. Ultrasensitive Strain Sensor Based on Core-Bending Long Period Fiber Grating[J]. IEEE Photonics Technology Letters, 2023, 35:269-272.
[11] Ma Y W, Tian T, Su C B, Dai Z Z, Li Y Y, Geng T. Core-modulated long-period fiber gratings formed by heating and stretching. Optics Communications, 2023, 533.
[12] Ma Y W, Zhao M, Geng T, Yuan L B. Highly sensitive curvature fiber sensor based on an enhanced core diameter mismatch. Optics Express, 2023, 31:21-30.
[13] Sun J, Zhao M, Li Y Y, Dai Z Z, Ma Y W, Su C B, Sun W M, Geng T. Highly Sensitive Torsion Sensor Based on Periodical Helix-Style Long Period Fiber Grating[J]. IEEE Photonics Technology Letters, 2022, 34:1195-1198.
[14] Yu X L, Zuo S S, Zhang Y, Ma Y W, Wang R N, Yang W L, Tian K, Geng T, Wang P F. A Mach-Zehnder interferometer based on peanut structure for temperature and refractive index measurement[J]. Optical Review, 2022, 29:492-497.
[15] Zhao M, Li X F, Li Y Y, Ma Y W, Sun J, Su C B, Yu Z, Qiao Y J, Geng T. A single-mode-deformed multimode-single-mode fiber structure for simultaneous measurement of curvature and temperature[J]. Sensors and Actuators a-Physical, 2022, 347.
[16] Su C B, Dai Z Z, Ma Y W, Zhao M, Sun J, Geng T. A compact strain sensor based on M-shaped-core long-period fiber grating[J]. Measurement, 2022, 203.
[17] Ma Y W, Sun J, Zhang M, Zhao M, Su C B, Chen X D, Liu Z H, Geng T, Sun W M, Yuan L B. High-sensitivity strain sensor based on a helical-core long-period fiber grating[J]. Optics letters, 2022, 47:3748-3751.
[18] Sun C T, Lu C P, Ma Y W, Chen X D, Rui Z J, Xiang Z H, Jin X R, Chen Y Y, Geng T, Sun W M, Yuan L B. An Improved Strain Sensor Based on Lorg-Period Fiber Grating With a Local Ellipse-Core Structure[J]. IEEE Sensors Journal, 2022, 22:11756-11762.
[19] Ma Y W, Su C B, Dai Z Z, Tian T, Yang X H, Geng T, Yuan L B. Sinusoidal-Core Long Period Fiber Grating for Refractive Index Measurement[J]. Journal of Lightwave Technology, 2022, 40:4903-4910.
[20] Ma Y W, Zhao M, Su C B, Sun J, Li X F, Yu Z, Zhang L L, Geng T. Vector curvature sensor based on asymmetrically polished long-period fiber grating[J]. Measurement, 2022, 194.
[21] Su C B, Ma Y W, Zhu Q F, Che X F, Sun J H, Geng T, Sun W M, Yuan L B. A highly sensitive torsion sensor based on symmetrically polished SMS fiber structure[J]. Sensors and Actuators a-Physical, 2022, 338.
[22] Zhang M, Liu Z H, Ma Y W, Zhang Y, Zhang Y X, Yang X H, Zhang J Z, Geng T, Yuan L B. Gelatin-coated long period fiber grating humidity sensor with temperature compensation[J]. Optical Engineering, 2022, 61.
[23] Jin X R, Rui Z J, Xiang Z H, Lu C P, Zhang S, Xu X, Lu M Y, Ma Y W, Sun C T, Yang X H, Geng T, Sun W M, Yuan L B. Ultrasensitive liquid level sensor based on slice-shaped composite long period fiber grating[J]. Chinese Optics Letters, 2022, 20.
[24] Li X Y, Tian T, Ma Y W, Yi Y, Wang S Y, Geng T, Yuan L B. A Torsion Sensor Based on a Core-Deformed Long Period Fiber Grating[J]. IEEE Photonics Technology Letters, 2022, 34(1): 55-58.
[25] Wang S Y, Ma Y W, Chen W H, Wang S J, Yi Y, Li X Y, Lu C P, Zhang S, Geng T, Sun W M, Yuan L B. Ultrasensitive Strain Sensor Based on Mach-Zehnder Interferometer With Bent Structures[J]. Journal of Lightwave Technology, 2021, 39:6958-6967.
[26] Niu H W, Jin X R, Liu W L, Xu X, Sun C T, Ma Y W, Zhang S, Lu C P, Yang X H, Geng T, Sun W M, Yuan L B. Fabrication and application of a novel long period fiber grating with arched fiber cores[J]. Optical Fiber Technology, 2021, 67.
[27] Ma Y W, Zhao M, Sun J, Su C B, Li X Y, Yi Y, Wang S Y, Geng T, Sun W M, Yuan L B. All-Fiber Strain Sensor Based on Dual Side V-Grooved Long-Period Fiber Grating[J]. IEEE Sensors Journal, 2021, 21:21572-21576.
[28] Ma Y W, Yi Y, Li X Y, Su C B, Zhang M, Geng T, Sun W M, Yuan L B. Refractometer based on fiber Mach-Zehnder interferometer composed of two micro bending cores[J]. Optics Express, 2021, 29:31443-31454.
[29] Ma Y W, Sun J, Wang S Y, Li X Y, Yan Y X, Tong C G, Geng T, Sun W M, Yuan L B. Fiber Strain Sensor Based on Incline Plane-Shaped Long Period Fiber Grating Induced by CO2 Laser Polishing[J]. IEEE Journal of Quantum Electronics, 2021, 57.
[30] Wang S Y, Ma Y W, Li X Y, Yi Y, Sun C T, Lin J Y, Tong C G, Li Y X, Geng T, Sun W M, Yuan L B. Highly sensitive torsion sensor based on triangular-prism- shaped long-period fiber gratings[J]. Chinese Optics Letters, 2021, 19.
[31] Lu C P, Jin X R, Wang S J, Xiang Z H, Sun C T, Chen X D, Ma Y W, Zhu Q Z, Tong C G, Geng T, Sun W M, Yuan L B. High Torsion Sensitivity Sensor Based on LPFG With Unique Geometric Structure[J]. IEEE Sensors Journal, 2021, 21:6217-6223.
[32] Ma Y W, Li X Y, Wang S Y, Yi Y, Chen X D, Zhang S, Wang S J, Geng T, Tong C G, Sun W M, Yuan L B. Highly sensitive strain sensor based on a long-period fiber grating with chain-shaped structure[J]. Applied Optics, 2020, 59:10278-10282.
[33] Zhang S, Li X, Niu H W, Yan Q, Sun C T, Peng F, Ma Y W, Zhang K, Geng T, Yang W L, Sun W M, Yuan L B. Few-mode fiber-embedded long-period fiber grating for simultaneous measurement of refractive index and temperature[J]. Applied Optics, 2020, 59:9248-9253.
[34] Ma Y W, Wang S J, Li X Y, Yi Y, Wang S Y, Li Y X, Geng T, Zhu H J, Sun C T, Zhang S, Li Y, Yuan L B. Torsion and Temperature Sensor Based on Polished MSM Structure[J]. IEEE Photonics Technology Letters, 2020, 32:1117-1120.
[35] Sun C T, Lu C P, Jin X R, Chen X D, Yan Q, Lin J Y, Xu X, Lv M Y, Zhang S, Ma Y W, Zhang Y H, Geng T, Sun W M, Qu Z Q, Yuan L B. A New Sensor for Simultaneous Measurement of Strain and Temperature[J]. IEEE Photonics Technology Letters, 2020, 32:1253-1256.
[36] Yi Y, Ma Y W, Wang S Y, Li X Y, Zhu H J, Sun C T, Zhang S, Yao C, Tong C G, Geng T, Sun W M, Yuan L B. A new strain sensor based on depth-modulated long-period fiber grating[J]. Infrared Physics & Technology, 2020, 111.
[37] Zhang S, Geng T, Wang S J, Niu H W, Li X, Deng S F, Wang Z M, Sun C T, Ma Y W, Yang W L, Sun W M, Yuan L B. High-Sensitivity Strain and Temperature Simultaneous Measurement Sensor Based on Multimode Fiber Chirped Long-Period Grating[J]. IEEE Sensors Journal, 2020, 20:14843-14849.
[38] Wang S Y, Ma Y W, Geng T, Sun C T, Zhu H J, Li X Y, Yi Y, Zhang S, Sun W M, Yuan L B. Compact fiber strain sensor fabricated by a CO2 laser[J]. Optics letters, 2020, 45:4156-4159.
[39] Zhang S, Deng S F, Geng T, Sun C T, Niu H W, Li X Y, Wang Z M, Li X, Ma Y W, Yang W L, Tong C G, Yuan L B. A miniature ultra long period fiber grating for simultaneous measurement of axial strain and temperature[J]. Optics and Laser Technology, 2020, 126.
[40] Sun C T, Wang R, Jin X R, Wang Z M, Liu W L, Zhang S, Ma Y W, Lin J Y, Li Y, Geng T, Sun W M, Qu Z Q, Yuan L B. A new phase-shifted long-period fiber grating for simultaneous measurement of torsion and temperature[J]. Chinese Optics Letters, 2020, 18.
[41] Zhang S, Deng S F, Wang Z M, Sun C T, Chen X D, Ma Y W, Zhao L, Lu C L, Geng T, Yang W L, Yuan L B. A miniature SMS-LPG bending sensor with high sensitivity based on multimode fiber embedded-LPG[J]. Sensors and Actuators a-Physical, 2019, 295:31-36.
[42] Zhang S, Deng S F, Wang Z M, Yang W L, Sun C T, Chen X D, Ma Y W, Li Y X, Geng T, Sun W M, Yuan L B. Optimization and experiment of a miniature multimode fiber induced-LPG refractometer[J]. Osa Continuum, 2019, 2:2190-2198.
[43] Liu W L, Sun C T, Ma Y W, Bai X Y, Yu L, Duan S J, Du H, Zhao C, Lu C L, Zhao L, Geng T, Yuan L B. A Highly Sensitive Torsion Sensor With a New Fabrication Method[J]. IEEE Photonics Technology Letters, 2019, 31:463-466.