- (1)Changjiang Fan et al., “A miniaturized tunable optical attenuator with ultrawide bandwidth based on evanescent‑feld coupling between nanofbers.” Scientific Reports 14(2024):18503.
- (2)(Invited review)Chenguang Xin et al.,“Micro-Opto-Electro-Mechanical Systems for High-Precision Displacement Sensing: A Review.” Micromachines 15(2024):1011.
- (3)Hao Yang et al., “3DOF Displacement Sensor Based on Self-imaging Effect of Optical Micro-gratings.” Applied Optics 63(2024):3984-3990.
- (4)Yinjie Wang et al.,“Enhancing the Consistency and Performance of Graphene-Based Devices via Al Intermediate-Layer-Assisted Transfer and Patterning.” Nanomaterials 14(2024):568.
- (5)Xinran Ji et al.,“Design of High-Gain Antenna Arrays for Terahertz Applications.” Micromachines 15(2024):407.
- (6)Li Jin et al.,“Linearization signal conditioning circuit for tri-axial micro-grating MOEMS accelerometer.” Optics Express 32(2024):10241 - 10251.
- (7)Cong Li et al.,“Graphene-based tunable high-sensitivity metasurface refractive index sensor.” Research Article (2024).
- (8)(Invited)Mengdi Zhang et al.,“Combined displacement and angle sensor with Ultra-High compactness based on self-Imaging effect of optical microgratings.” Sensors 24(2024):908.
- (9)Zhongyao Zhang et al.,“Design and simulation of a waveguiding MOEMS gyroscope with ultrawide optical bandwidth based on tunable cascaded Fabry–Perot cavities.”Optics Communications 556(2024):130268
- (10)Chunli Zhang et al.,“Design of a Highly Sensitive Terahertz Temperature and Refractive Index Composite Sensor Based on InSb-Ag Composite Grating.” Journal of the Optical Society of America B 41(2024):411 - 420.
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