科研获奖：

截至目前，杨文星科研小组已获得省部级以上科研奖励5项，列表如下：

1. "低维相干介质光传输特性及其量子调控", 湖北省自然科学二等奖，杨文星（1/5），水涛（3/5），2023年

2. "基于人工微纳结构的光子传感关键技术及产业化", 中国产学研合作创新成果二等奖，杨文星（1/10），水涛（4/10），程书博（5/10），孙波（6/10），2023年

3. "面向衍射光学元器件的低维微纳光学结构设计关键技术及应用", 中国发明协会发明创业创新二等奖，杨文星（1/6），程书博（3/6），水涛（4/6），2024年

4. "高层建筑密集母线温度场云智能监测及预警系统", 日内瓦国际发明展银奖，杨文星（1/9），2021年

5. 中国产学研合作创新与促进奖-产学研合作创新奖（个人），杨文星（1/9），2021年

发表论文：

截至目前，杨文星科研小组已经在SCI收录期刊当中发表余篇科研论文。以组内成员为第一作者的文章如下：

2024年  

1.  Xu Deng, Tao Shui *, Wen-Xing Yang*, Inelastic two-wave mixing induced high-efficiency transfer of optical vortices, Optics Express, 32, 16611 (2024). 【中科院二区TOP期刊】

2.  Le Ai, Tao Shui*, Wen-Xing Yang*, Coherent manipulation of three-dimensional probe absorption spectrum in a strained GaAs-AlGaAs-InAs semiconductor quantum dot, Optical and Quantum Electronics, 56, 1158 (2024).

3. Liang-Xuan Fan,Tao Shui*, Ling Li*, Wen-Xing Yang*, Modulation of Second-Order Sideband Efficiency in an Atom-Assisted Optomechanical System, Photonics, 11, 416 (2024).

4. S. Liu, Y. Zheng, H. Xiao, S. Shan, X. Liu, S. Ahmad, A. Rana, S. Cheng*, et al., Generation of a controllable multi-spiral beam by using the modulated helico-conical phases, Applied Physics Letters, 2024

5. S. Shan, S. Cheng*, S. Liu, et al., Measuring the topological charge of a vortex beam via the self-rotating beam phase, Applied Physics Letters, 2024.

6. S. Liang, S. Cheng*, H. Zhang, et al., Structural color tunable intelligent mid-infrared thermal control emitter, Ceramics International, 2024.

7. W. Li, W. Zhao, S. Cheng*, H. Zhang, Z. Yi, et al., Tunable metamaterial absorption device based on Fabry–Perot resonance as temperature and refractive index sensing, Optics and Lasers in Engineering, 2024.

8. W. Li, Y. Liu, L. Ling, Z. Sheng, S. Cheng*, et al., The tunable absorber films of grating structure of AlCuFe quasicrystal with high Q and refractive index sensitivity, Surfaces and Interfaces, 2024.

9.  W. Li, S. Cheng*, H. Cheng, et al., Multi-Functional Metasurface: Ultra-Wideband/Multi-Band Absorption Switching by adjusting Guided Mode Resonance and Local Surface Plasmon Resonance Effects, Communications in Theoretical Physics, 2024.

10. S. Cheng*, W. Li, H. Zhang, M. Akhtar, et al., High sensitivity five band tunable metamaterial absorption device based on block like Dirac semimetals, Optics communications, 2024.

11. Zhiyong Chen, S. Cheng*, Huafeng Zhang, et al., Ultra wideband absorption absorber based on Dirac semimetallic and graphene metamaterials, Physics Letters A, 2024.

2023年 

1.  Chun Meng, Tao Shui *, Wen-Xing Yang*, Coherent transfer of optical vortices via backward four-wave mixing in a double-Λ atomic system, Physical Review A, 107,  053712 (2023). 【中科院二区，自然指数期刊】

2.  Yangni Liu, Songpo Xu*, Mufeng Zhu, Zhengrong Xiao, Shaogang Yu, Linqiang Hua, Xuanyang Lai, Wei Quan*, Wen-Xing Yang* and Xiaojun Liu*, Wavelength Dependence of Atomic Excitation for Ar Subjec to Intense Midinfrared Laser Pulses, Chinese Physics Letters, 40,  103201 (2023). 【中科院二区期刊】

3.  Xin Pan, Shao-Peng Liu, Tao Shui*, Wen-Xing Yang*, Optical quadrature squeezing via Faraday effect in Cavity Optomagnonics, Journal of Optical Society of America B, 12, 3065  (2023) (Editors' Pick).

4. Tong-Zhen Chen, Zhen-Yu Shi, Le Ai, Tao Shui*, Wen-Xing Yang*, Role of Er³⁺ion concentration on the Goos-Hänchen shift in an Er³⁺-doped YAG crystal, Journal of Optical Society of America B, 40, 1591 (2023).

5. Tong-Zhen Chen, Yu-Qian He, Zhen-Yu Shi, Le Ai, Tao Shui*, Wen-Xing Yang*, Uddin Zia, Coherent control of the photonic spin Hall effect by Er³⁺ion concentration in an Er³⁺-doped YAG crystal, Optical Materials Express, 10, 2964 (2023).

6. Xu Deng, Tao Shui *, Tong Zhang, Yi Song, Wen-Xing Yang*, Coherent control of double-ring perfect optical vortex via hyper-Raman scattering in a Landau-quantized graphene, European Physical Journal Plus, 138, 737 (2023).

2022年   

1. Tao Shui, Wen-Xing Yang*, Mu-Tian Chen, Ray-Kuang Lee, Optical nonreciprocity and nonreciprocal photonic devices with directional four-wave mixing effect, Optics Express, 30, 6284 (2022).【中科院二区TOP期刊】

2. Tao Shui*, Xiu-Mei Chen, Wen-Xing Yang*, Coherent control of spatial and angular Goos-Hänchen shifts with spontaneously generated coherence and incoherent pumping, Applied Optics,  61, 10072 (2022).

3. Yi-Lou Liu, Ling Li, Tao Shui*, Ning Ji, Shao-Peng Liu, Wen-Xing Yang*, Two-color second-order sideband generation via magnon Kerr nonlinearity in a cavity magnonical system, Journal of Optical Society of America B 39, 1042 (2022). (Spotlight on Optics).

4. Yi Song, Ling Li, Tao Shui*, Die Hu, Wen-Xing Yang*, Topological Charge Measurement of the Mid-Infrared Vortex Beam via Spatially Dependent Four-Wave Mixing in an Asymmetric Semiconductor Double Quantum Well, Frontiers in Physics, 10, 907284 (2022).

5. Xu Deng, Tao Shui*, Wen-Xing Yang*, T Coherent Control of Perfect Optical Vortex Through Four-Wave Mixing in an Asymmetric Semiconductor Double Quantum Well, Frontiers in Physics, 10, 877859 (2022).

6. Tong Zhang, Die Hu, Tao Shui*, Li-Bo Jiang, Ling Li, Wen-Xing Yang*, Yingqi Liao, Coherent manipulation of perfect optical vortex via inelastic four-wave mixing in a cold five-level atomic system, Laser Physics Letters, 138, 737 (2022).

7. Wang-Rui Zhang, Tao Shui*, Yi-Lou Liu, Ning Ji, Wen-Xing Yang*, Photon routing based on non-chiral interaction between atoms and waveguides, Laser Physics Letters, 19, 015203 (2022).

2021年   

1. Ning Ji, Tao Shui*, Yi-Lou Liu, Wang-Rui Zhang, Xiu-Mei Chen, Wen-Xing Yang*, Optical soliton in a one-dimensional array of a metal nanoparticle-microcavity complex, Communications in Theoretical Physics, 2021, 73: 115105.

2. Chun Meng, Tao Shui*, Wen-Xing Yang*, Yong-Hong Tian, Control of an electromagnetically induced grating by Er³⁺ ion concentration in an Er³⁺-doped YAG crystal, Journal of Optical Society of America B, 2021, 38, 2036-2042.

3. Xiu-Mei Chen, Tao Shui*, Chun Meng, Tong Zhang, Xu Deng, Wen-Xing Yang*, Controllable Goos-Hänchen shift and optical switching in an Er³⁺ -doped yttrium aluminum garnet crystal, Laser Physics Letters, 2021, 18: 045205.

4. Tao Shui, Ling Li, Xin Wang, Wen-Xing Yang*, One- and two-dimensional electromagnetically induced gratings in an Er³⁺ - doped yttrium aluminum garnet crystal, Scientific Reports, 2020, 10: 4019.

5. Tao Shui, Wen-Xing Yang*, Ling Li, Perfectly asymmetric Raman-Nath diffraction in disordered atomic gratings, Optics Express, 2019, 27: 24693-24704.

6. Tao Shui, Wen-Xing Yang*, Ling Li, Xin Wang, Lop-sided Raman-Nath diffraction in PT-antisymmetric atomic lattices, Optics Letters, 2019, 44: 2089-2092.

7. Tao Shui, Wen-Xing Yang*, Qing-Ya Zhang, Xin Liu, Ling Li, Squeezing-induced giant Goos-Hänchen shift and hypersensitized displacement sensor in a two-level atomic system, Physical Review A, 2019, 99: 013806.

8. Tao Shui, Wen-Xing Yang*, Shao-Peng Liu, Ling Li, Zhong-Hu Zhu, Asymmetric diffraction by atomic gratings with optical PT symmetry in the Raman-Nath regime, Physical Review A, 2018, 97: 033819.

9. Tao Shui, Wen-Xing Yang*, Ai-Xi Chen, Shao-Peng Liu, Ling Li, Zhong-Hu Zhu, High-precision two-dimensional atom localization from four-wave mixing in a double-Λ four-level atomic system, Laser Physics, 2018, 28: 035201.

10. Tao Shui, Zhi-Ping Wang*, Ben-Li Yu, Efficient two-dimensional atom localization via spontaneously generated coherence and incoherent pump, Journal of Optical Society of America B, 2015, 32, 210-217.

11. Tao Shui, Zhi-Ping Wang*, Ben-Li Yu, Efficient two-dimensional atom localization via an external coherent magnetic field, Quantum Information Processing, 2015, 14: 929-941.

12. Tao Shui, Zhi-Ping Wang*, Zhi-Gang Cao, Ben-Li Yu, Two-dimensional sub-half-wavelength atom localization via Autler-Townes microscopy, Laser Physics, 2014, 24: 055202.

13. Tao Shui, Zhi-Ping Wang*, Ben-Li Yu, Controlling two-dimensional electron localization via phase-controlled absorption and gain in the three-coupled quantum wells, Physics Letters A, 2014, 378: 235-242.

14. Tao Shui, Zhao Zhang, Chen-Chen Yin, Ben-Li Yu, Zhi-Gang Cao*, Large refractive index with vanishing absorption in optical fibers, Optik, 2014, 125: 4758-4761.