程书博

基本情况介绍

程书博，男，博士，副教授，硕士生导师。获2019年度“湖南省优秀博士学位论文”奖励，入选2020年度长江大学“菁英人才”，入选2021年度湖北省省级人才“楚天学子”，获2022年度中国产学研合作创新与促进奖二等奖。主要研究方向有光场调控、光镊技术、微纳光子器件等。先后主讲本科生、研究生课程《大学物理》、《微纳光子学》、《人工智能光电子器件》等。目前，主持国家自然科学基金、湖北省自然科学基金一般面上项目等项目7项；参与国家自然科学基金面上项目、湖北省自然科学基金创新群体项目、湖北省高等学校优秀中青年科技创新团队计划项目等项目6项；以第一作者或通讯作者在《Applied Physics Letters》、《Optics Express》、《Optics Letters》等期刊发表论文40余篇；授权国家发明专利13项。

联系方式：shubocheng@yangtzeu.edu.cn

个人主页：https://www.researchgate.net/profile/Shubo_Cheng2

近几年的学术研究

1. 承担的研究课题

-基于带有位相梯度的线光束阵列自动筛选微粒的机理与实验研究，国家自然科学基金-青年基金，主持

-轴向等强度多焦点波带片的设计及轴向衍射特性的理论研究，国家自然科学基金-理论物理专项，主持

-可控 helico-conical 光束的产生及其光镊技术应用研究，湖北省自然科学基金-面上项目，主持

-光驱动微粒沿开口大小可调的环状路径移动的机理与实验研究，湖北省教育厅科学技术研究计划-青年人才项目，主持

-基于三元素Thue-Morse光子筛的宽谱段低像差成像研究，中科院光谱成像技术重点实验室开放基金，主持

-光驱动微粒自动沿任意指定路径移动的机理与实验研究，国家自然科学基金-面上项目，参与

-压电调控场效应晶体管的探索设计与理论研究，国家自然科学基金-青年基金，参与

-微腔光子-激子强耦合体系激子极化激元量子调控，湖北省自然科学基金-创新群体项目，参与

-表面等离激元增强激子-光子耦合及激子极化激元的量子相干控制，国家自然科学基金-面上项目，参与

-光电功能材料与器件，湖北省高等学校优秀中青年科技创新团队计划项目，参与

-新型InAs/InP/壳异质结纳米线红外探测器的研制，湖北省自然科学基金-面上项目，参与

2. 学术交流

-程书博，科学级CCD机械快门时间响应及暗电流特性分析，中国光学学会2011年学术大会，中国，深圳。

-Shubo Cheng, Optical trapping characteristics of a metal microsphere coated with thick dielectric shell in the focused optical field, Applied Optics and Photonics China, China, Beijing.

-Tian Xia, Shubo Cheng, The generalized Fibonacci class zone plate, the 12th Conference on Lasers and Electro-Optics Pacific Rim (CLEO-PR), co-located with the 22nd Opto Electronics and Communications Conference (OECC) and the 5th Photonics Global Conference, 2017, (PGC) Singapore.

-Tian Xia, Kai Niu, Shubo Cheng, Polychromatic Focusing Properties of Rudin–Shapiro Zone Plates, the First International Conference on Optics, Photonics and Lasers (OPAL 2018) Barcelona, Castelldefels, Spain.

3.学术成果

学术论文(第一作者或通讯作者)：

2023年

-Measuring the topological charge of helico-conical vortex beam via the lens phase, Applied Physics Letters, 2023, 123: 103042.

-Arbitrary self-rotating beam array generated with the synthetic phase, Applied Physics Letters, 2023, 123: 121102.

-Measuring the photonic topological charge of power-exponent-phase vortex beam via cross phase, Applied Physics Letters, 2023, 123: 034104.

-Self-healing properties of the symmetrical power-exponent-phase vortices, J. Opt. Soc. Am. A, 2023, 40(10): 1873-1881.

-Multi-helix beams generated with binary helico-conical phase patterns, J. Opt. Soc. Am. A, 2023, 40(9): 1706-1713.

-Controllable helico-conical beam generated with the bored phase, Photonics, 2023, 10: 577.

-A five-peaks graphene absorber with multiple adjustable and high sensitivity in the far infrared band, Diamond and Related Materials, 2023, 136(3): 109960.

-High refractive index sensitivity adjustable six band absorber based on dual regulation of embedded Dirac semi metal and active graphene, Diamond and Related Materials, 2023, 136(12): 109944.

-The Tunable Broadband Absorber Based on Dirac Semimetal of Layered Resonant Structure, Physical Chemistry Chemical Physics, 2023, 12(25): 8489-8496.

-Terahertz Selective Active Electromagnetic Absorption Film Based on Single-layer Graphene, Surfaces and Interfaces, 2023, 40: 103042.

-Active Tunable Terahertz Bandwidth Absorber Based on single layer Graphene, Communications in Theoretical Physics, 2023, 75(4): 045503.

-Tunable smart mid infrared thermal control emitter based on phase change material VO2 thin film, Applied thermal engineering, 2023, 232: 121074.

-High Absorptivity and Ultra-Wideband Solar Absorber Based on Ti-Al2O3 Cross Elliptical Disk Arrays, Coatings, 2023, 13(3): 531.

2022年

-Controllable multi-sector array beams, Optics Letters, 2022, 47(16): 4028-4031.

-Self-healing of the bored helico-conical beam, Optics Express, 2022, 30(6): 9924-9933.

-Design of ultra-narrow band graphene refractive index sensor, Sensors, 2022, 22: 6483.

-Ultra long infrared metamaterial absorber with high absorption and broad band based on nano-cross surrounding, Optics and laser technology, 2022, 117: 288-292.

-A “belfry-typed” narrow-band tunable perfect absorber based on graphene and the application potential research, Diamond and Related Materials, 2022, 125(3):108973.

-High sensitivity active adjustable graphene absorber for refractive index sensing applications, Diamond and Related Materials, 2022, 128(2):109273.

-Spoon-like beams generated with exponential phase profiles, Coatings, 2022, 12(3):322.

-Autofocusing Airy beams carrying a new kind of power-exponent-phase vortices, Optics communications, 2022, 507: 127635.

2021年

-Focusing properties of the three-component Thue-Morse zone plate, Optik, 2021, 228: 166103.

- A Tunable “Ancient Coin”-Type perfect absorber with high refractive index sensitivity and good angular polarization tolerance, Coatings, 2021, 11(7): 814.

2020年

-A spiral-like curve with an adjustable opening generated by a modified helico-conical beam, Optics communications, 2020, 458, 124824.

-Imaging properties of generalized composite aperiodic zone plates, Optics Express, 2020, 28(18): 27181-27195.

2019年

-Power-exponent Helico-conical optical beams, Optics and laser technology, 2019, 117: 288-292.

-Optical manipulation of microparticles with the momentum flux transverse to the optical axis, Optics and laser technology, 2019, 113: 266-272.

-Simultaneous manipulation of microparticles in multiple planes with the Thue-Morse zone plate beam, Laser Physics, 2019, 29(3): 036001.

-Ring-broken optical vortices with an adjustable opening, Results in physics, 2019, 15, 102689.

-An arbitrarily designed main focus with high intensity generated by a composite fractional fractal zone plate, Optics Communications, 2019, 430: 348-351.

-Two pairs of twin foci with the golden mean generated by a modified Fibonacci zone plate, Journal of optics-UK, 2019, 21: 035602.

2018年

-Fibonacci-like zone plate, Laser Physics, 2018, 28(6): 066203.

-Composite spiral zone plate, IEEE Photonics Journal, 2018, 11(1): 4500111.

2016年

-Fractal zone plate beam based optical tweezers, Scientific Reports, 2016, 6, 18441.

-Optical Tweezers with fractional fractal zone plate, IEEE Photonics Journal, 2016, 8(5): 6100407.

-Annular beam with segmented phase gradients, AIP Advances, 2016, 6: 085322.

-Vortex-based line beam optical tweezers, Journal of optics-UK, 2016, 18,105603.

2015年

-Optical trapping of a dielectric-covered metallic microsphere, Journal of optics-UK, 2015, 17: 105613.

授权发明专利：

螺旋锥型波带片的构造方法及其制成的螺旋锥型波带片，ZL 2023 1 0948667.3

一种基于 Rudin-Shapiro 非周期序列的波带片构造方法及波带片, ZL 201611041292.9

基于多拓扑荷数环形光束的自由空间光通信系统及方法, ZL 201710209745.2

一种钙钛矿光电探测器及其制备方法, ZL 201710495524.6

焦点连续可调的n分形非周期波带片及其构造方法, ZL 2018100961736

多焦点类斐波那契波带片及其构造方法, ZL201710822214.0

一种产生多个衍射级等强度焦点的波带片的构造方法, ZL 201811619337.5

一种多焦点波带片及其构造方法, ZL201811619325.2

新型波带片的构造方法及其制成波带片, ZL201810594979.8

修正螺旋波带片的构造方法及其制成的波带片新型波带片的构造方法及其制成波带片, ZL201811512635.4

一种复合螺旋波带片及其构造方法, ZL201811229507.9

一种波带片及其构造方法, ZL201811620059.5

新型分数分形光子筛的构造方法及制成的光子筛, ZL201910796102.1

出版著作：

Advances in Optics: Reviews, Book Series, Volume 5, Published by International Frequency Sensor Association (IFSA) Publishing, S. L., 2021

学术服务：

担任Photonics期刊客座编辑；担任Optics Express、J. Opt. Soc. Am. A、Optics and laser technology、Optics Communications、Renewable Energy、Solar Energy等期刊审稿人。

4. 人才培养

指导国家级、省级优秀大学生创新创业项目各1项；指导校级大学生创新创业项目3项；指导优秀硕士生学位论文1篇；指导优秀本科生学位论文3篇。