人物經歷
受教育經歷
2007/09 – 2009/04,美國亞利桑那大學,光學中心,聯合培養博士
2003/09 – 2009/06,南開大學,物理科學學院,博士
1999/09 – 2003/06,天津大學,理學院,學士
研究工作經歷
2016/12至今,教授,博士生導師(2014/12至今)南開大學,物理科學學院,泰達套用物理研究院;
2011/12-2016/12,副教授,博士生導師(2014/12至今)南開大學,物理科學學院,泰達套用物理研究院;
2009/07 – 2011/12,講師南開大學,物理科學學院,泰達套用物理研究院;
研究方向
長期從事超材料光學特性調控及其套用、局域矢量光場的產生、光子帶隙材料和材料光學非線性機制等研究,在Appl. Phys. Lett.、Opt. Lett.、Optics Express、Plasmonics、J. Opt. Soc. Am. B 等雜誌發表論文50餘篇 。代表性研究成果如下:
1. 超材料
超材料是指自然界不存在的、人工製造的、具有周期性結構的三維複合材料,其研究近幾年來迅速成為電磁學、物理學、材料科學等學科的前沿交叉領域。超材料通常應具有以下三個特點:(1)具有新奇人工結構的複合材料;(2)具有超常的物理性質;(3)性質往往不主要取決於其構成材料的本徵性質,而主要取決於其人工結構。這些微納尺度下的人工材料可以等同的看做為自然材料中的原子和分子。通過對這種“人工原子和分子”的設計使得超材料將具備超常的材料特性。超材料在光纖、隱身材料、超級透鏡、負折射材料等方面有著廣泛的套用和發展前景。本課題組主要關注於利用超材料實現人工吸光材料、折射率梯度漸變材料的研究。
超材料一個引人矚目的套用領域是電磁波“完美吸收器”,完美吸收器的概念最早是在2008年提出,這是一種基於超材料的電磁諧振吸收器,通過合理設計器件 的物理尺寸及材料參數,能夠與入射電磁波的電磁分量產生耦合,從而對入射到吸收器的特定頻帶內的電磁波實現百分之百的吸收。目前,完美吸收器的潛在套用包 括測輻射熱儀,電磁隱身,熱發射等領域。更重要的是,通過尺度最佳化,基於超材料的新型器件在太赫茲波段也能產生有效回響,所以基於超材料的太赫茲吸收器也受到了很高的關注。
超材料可以設計出的一種折射率梯度漸變材料,其可以很大程度上提高了人類對光操控的自由度。這種超材料在很大範圍上可以實現位置依賴的相位梯度分布。由於在表面引入了等效折射率梯度變化,入射角、反射角和折射角之間的關係將突破了經典的斯涅耳定律。即使在入射光角度固定的前提下僅僅需要改變材料等效折射率的梯度值,也可以簡單操控透射光的方向。不僅如此,通過對材料的設計,幾乎可以獲得任意的等效折射率分布。與那些需要依靠逐漸相位積累來實現塑造波前的傳統光學器件相比,這種梯度漸變超材料將具有更加豐富的光學性質,在超分辨成像、平面透鏡、全息等領域有著非常好的發展前景。
2. 納米光子學
納米光子學是研究在納米尺度上光與物質相互作用的科學與技術,在納米尺度上實現對光子的操縱是納米光子學的研究目標。納米光子學不僅為研究在小於光波長的尺度上光與物質的相互作用過程提供富有挑戰性的機遇,同時為在更小尺度上的光學製造技術開闢了一條新的途徑。作為一個新的前沿領域,納米光子學已經引起了世界範圍內的廣泛關注和極大興趣。對於超材料這種微納人工材料,其結構單元的尺度遠小於入射光的波長,因此其提供了一個理想的平台來實現對納米光子學的研究。本課題組利用超材料在微納尺度下分別實現了光偏振操控以及光不對易透過。
在套用光學的諸多領域,實現對光的偏振態的調控一直是人們研究的焦點。特別是在可見光波段,許多光學現象都與光的偏振態有著密切的聯繫。超材料作為一種新型的人工合成材料,它利用表面電漿激元極大地提高了我們對於光的調控能力。同時,通過在微結構關鍵部位添加非線性材料,溫敏材料等,實現對光的偏振態的動態調控。
光在互逆的傳播方向上傳播,透射光能量的區別被稱為非對稱透射。由於非對稱透射在構建電磁 器件方面具有很大的潛力,近來其已經成為研究的熱點。我們提出了一種在近紅外波段實現線偏光寬頻類二極體非對稱透射的雜化超材料。這一研究成果為類二極體單向透射裝置的設計提供了有用的分析和新的可能性。
3. 納米光學器件
高速發展的信息工業對光學器件集成度的要求越來越高,這促使了人們不斷探索能夠突破器件尺寸極限的途徑。隨著對納米光子學的深入研究,納米光學器件也應運而生。納米光學材料可以實現快速的光子動力學過程和電信號的結合,因此它被認為是下一代的超快速和超緊湊光子電路。目前,人們已經證明了利用納米光學技術可以實現一些重要的光學器件,包括等離子發生器,光學開關、空間光調製器等。此外,人們也一直在努力將納米光學器件套用於生物醫學感測,近場顯微鏡和光譜能量收集等領域。我們也對等離子雜化,光電信號轉換以及基於納米光學器件的光信息傳輸與加密等領域具有濃厚的研究興趣。
4. 聲學器件
聲波與電磁波之間有一定的對應關係,比如聲質量密度與介電常數對應、聲體彈性模量與磁導率的倒數對應,因此許多光學現象一樣可以在聲學中實現,比如說超材料、超透鏡和聲學隱身等概念同樣可以類比到聲學中來。聲學還有它獨到之處,一些在微觀尺度下光學、電子學不容易觀測的現象可以在巨觀的聲學系統中觀測到,這使聲學成為了人們探索物理機制的一個重要手段。隨著超聲成像和診斷、弱聲探測和噪音控制等聲學需求的逐漸增加,最近幾年,相應的聲學器件也在飛速發展,其中超透鏡、完美吸收器、聲二極體和循環器等受到了頂尖期刊的關注。Nature的評論人指出,聲二極體的發明有著與電二極體相似的重大意義,極大地促進了聲子學的發展。
5. 聲學調控
近年來,聲子晶體和聲學超材料得到了飛速的發展。與光子晶體和電磁超材料類似,聲子晶體和聲學超材料可以極大地拓展人們對聲波的調控手段。通過對聲結構的排布設計尤其是超表面的設計,可以實現聲波前的控制,其中包括異常反射和透射現象、聚焦與成像、特殊聲束產生等,在聲源設計、超聲探測和聲鑷操縱等領域有重大的套用價值。在聲結構中引入如壓電薄膜等動態調控部件對聲音進行動態調製,可以更加拓展聲調控的實用性。
科研項目
1、973課題南開部分,空間結構光場與微結構的線性和非線性耦合效應,2012.1-2016.12
2、國家自然科學基金,梯度漸變超材料光學特性調控及其套用研究,2014.1-2017.12
3、教育部新世紀優秀人才,基於新結構、新機理的超材料光學特性研究,2014.1-2016.12
4、南開大學百名青年學科帶頭人培養計畫,等離子激元超表面光學特性調控,2014.11-2018.11
5、天津市自然基金,動態調控雜化超材料等離子激元誘導透明及其套用,2013.4-2016.3
6、國家自然科學基金,微結構光纖表面電漿諧振和局域場增強及其套用研究,2011.1-2013.12
7、教育部博士點,基於微結構光纖的表面電漿諧振及其套用研究,2011.1-2013.12
論文專著
(*代表通訊作者)
2016年
51. Boyang Xie, Kun Tang, Hua Cheng, Zhengyou Liu, Shuqi Chen*, and Jianguo Tian, “Coding acoustic metasurfaces,” Adv. Mater. DOI: 10.1002/adma.201603507 (2016).
50. Shuqi Chen*, Wenwei Liu, Zhancheng Li, Hua Cheng, and Jianguo Tian, “Polarization State Manipulation of Electromagnetic Waves with Metamaterials and Its Applications in Nanophotonics,” Book chapter in Metamaterials - Devices and Advanced Applications, IN-TECH, ISBN:978-953-51-4926-2,(2016).
49. Ping Yu, Jianxiong Li, Chengchun Tang, Hua Cheng, Zhaocheng Liu, Zhancheng Li, Zhe Liu, Changzhi Gu, Junjie Li, Shuqi Chen*, and Jianguo Tian, “Controllable optical activity with non-chiral plasmonic metasurfaces,” Nature Light: Science & Applications, 5, e16096 (2016).
48. Jianxiong Li, Ping Yu, Hua Cheng, Wenwei Liu, Zhancheng Li, Boyang Xie, Shuqi Chen*, and Jianguo Tian, “Optical polarization encoding using graphene-loaded plasmonic metasurfaces,” Adv. Opt. Mater.4, 91 (2016). [Inside Front Cover]
47. Jieying Liu, Zhancheng Li, Wenwei Liu, Hua Cheng, Shuqi Chen*, and Jianguo Tian, “High-efficiency mutual dual-band asymmetric transmission of circularly polarized waves with few-layer anisotropic metasurfaces,” Adv. Opt. Mater. DOI:10.1002/adom.201600602 (2016).
46. Zhi Li, Hua Cheng, Zhaocheng Liu, Shuqi Chen*, and Jianguo Tian, “Plasmonic Airy beam generation by both phase and amplitude modulation with metasurfaces,” Adv. Opt. Mater. 4, 1230 (2016).
45. Zhancheng Li, Wenwei Liu, Hua Cheng, Jieying Liu, Shuqi Chen*, and Jianguo Tian, “Simultaneous generation of high-efficiency broadband asymmetric anomalous refraction and reflection waves with few-layer anisotropic metasurface,” Sci. Rep. 6, 35485 (2016).
44. Zhancheng Li, Wenwei Liu, Hua Cheng, Shuqi Chen*, and Jianguo Tian, “Tunable dual-band asymmetric transmission for circularly polarized waves with graphene planar chiral metasurfaces,” Opt. Lett. 13, 3142 (2016).
43. Zhaocheng Liu, Shuqi Chen*, Hua Cheng, Zhancheng Li, Wenwei Liu, and Jianguo Tian, “Interferometric control of signal light intensity by anomalous refraction with plasmonic metasurface,” Plasmonics, 11,353 (2016).
2015年
42. Hua Cheng, Zhaocheng Liu, Shuqi Chen*, and Jianguo Tian, “Emergent functionality and controllability in few-layer metasurfaces,” Adv. Mater.27, 5410 (2015).
41. Zhaocheng Liu, Zhancheng Li, Zhe Liu, Jianxiong Li, Hua Cheng, Ping Yu, Wenwei Liu, Chengchun Tang, Changzhi Gu, Junjie Li, Shuqi Chen*, and Jianguo Tian, “High performance broadband circularly polarized beam deflector by mirror effect of multi-nanorod metasurfaces,” Adv. Funct. Mater.25, 5428 (2015). [Support Infomation] [Inside Back Cover]
40. Jianxiong Li, Shuqi Chen*, Haifang Yang, Junjie Li, Ping Yu, Hua Cheng, Changzhi Gu, Hou-Tong Chen, and Jianguo Tian, “Simultaneous control of light polarization and phase distributions using plasmonic metasurfaces,” Adv. Funct. Mater.25, 704 (2015).[Support Infomation] [Back Cover]
39. Hua Cheng, Shuqi Chen*, Ping Yu, Wenwei Liu, Zhancheng Li, Jianxiong Li, Boyang Xie, and Jianguo Tian, “Dynamically tunable broadband infrared anomalous refraction based on graphene metasurfaces,” Adv. Opt. Mater.3,1744 (2015). [Frontispiece]
38. Zhancheng Li, Wenwei Liu, Hua Cheng, Shuqi Chen*, and Jianguo Tian, “Realizing broadband and invertible linear-to-circular polarization converter with ultrathin single-layer metasurface,” Sci. Rep.5, 18106 (2015).
37. Wenwei Liu, Shuqi Chen*, Zhancheng Li, Hua Cheng, Ping Yu, Jianxiong Li, and Jianguo Tian, “Realization of broadband cross-polarization conversion in transmission mode in the terahertz region using a single-layer metasurface,” Opt. Lett.40, 3185 (2015).
36. Ping Yu, Shuqi Chen*, Jianxiong Li, Hua Cheng, Zhancheng Li, Wenwei Liu, Boyang Xie, Zhaocheng Liu, and Jianguo Tian, “Generation of vector beams with arbitrary spatial variation of phase and linear polarization using plasmonic metasurfaces,” Opt. Lett.40, 3229 (2015).
35. Zhancheng Li, Shuqi Chen*, Wenwei Liu, Hua Cheng, Zhancheng Liu, Jianxiong Li, Ping Yu, Boyang Xie and Jianguo Tian, “High performance broadband asymmetric polarization conversion due to polarization-dependent reflection,” Plasmonics 10, 1703 (2015).
34. Ping Yu, Shuqi Chen*, Jianxiong Li, Hua Cheng, Zhancheng Li, Wenwei Liu,and Jianguo Tian, “Dynamically tunable plasmonic lens between the near and far fields based on composite nanorings illuminated with radially polarized light,” Plasmonics10, 625 (2015).
2014年
33. Zhancheng Li, Shuqi Chen*, Chengchun Tang, Wenwei Liu, Hua Cheng, Zhe Liu, Jianxiong Li, Ping Yu, Boyang Xie, Zhaocheng Liu, Junjie Li, and Jianguo Tian, “Broadband diodelike asymmetric transmission of linearly polarized light in ultrathin hybrid metamaterial,” Appl. Phys. Lett. 105, 201103 (2014).
32. Zhaocheng Liu, Shuqi Chen*, Jianxiong Li, Hua Cheng, Zhancheng Li, Wenwei Liu, Ping Yu, Ji Xia, and Jianguo Tian, “Fully interferometric controllable anomalous refraction efficiency using cross-modulation with plasmonic metasurfaces,” Opt. Lett. 39, 6763 (2014).
31. Xiaoyang Duan, Shuqi Chen*, Wenwei Liu, Hua Cheng, Zhancheng Li, and Jianguo Tian, “Polarization-insensitive and wide-angle broadband nearly perfect absorber by tunable planar metamaterials in the visible regime,” J. Opt. 16, 125107 (2014).
2013年
30. Hua Cheng , Shuqi Chen*, Ping Yu , Jianxiong Li, Boyang Xie, Zhancheng Li, and Jianguo Tian, “Dynamically tunable broadband mid-infrared cross polarization converter based on graphene metamaterial,” Appl. Phys. Lett. 103, 223102 (2013).
29. Hua Cheng , Shuqi Chen*, Ping Yu, Xiaoyang Duan, Boyang Xie, and Jianguo Tian, “Dynamically tunable plasmonically induced transparency in periodically patterned graphene nanostrips,” Appl. Phys. Lett. 103, 203112 (2013).
28. Hua Cheng, Shuqi Chen*, Ping Yu, Jianxiong Li, Li Deng, and Jianguo Tian, “Mid-infrared tunable optical polarization converter composed of asymmetric graphene nanocrosses,” Opt. Lett. 38, 1567 (2013).
27. Xiaoyang Duan, Shuqi Chen*, Hua Cheng, Zhancheng Li, and Jianguo Tian, “Dynamically tunable plasmonically induced transparency by planar hybrid metamaterial,” Opt. Lett. 38, 483 (2013).
26. Ping Yu, Shuqi Chen*, Jianxiong Li, Hua Cheng, Zhancheng Li, and Jianguo Tian, “Co-enhancing and -confining the electric and magnetic fields of the broken-nanoring and the composite nanoring by azimuthally polarized excitation,” Opt. Express 21, 20611 (2013).
25. Jianxiong Li, Shuqi Chen*, Ping Yu, Hua Cheng, Xiaoyang Duan, and Jianguo Tian, “Realization of near-field linear nano-polarizer by asymmetric nanoaperture and bowtie nanoantenna,” Opt. Express 21, 10342 (2013).
24. Jianxiong Li, Shuqi Chen*, Ping Yu, Hua Cheng, Lunjie Chen, and Jianguo Tian, “Indirectly Manipulating Nanoscale Localized Fields of Bowtie Nanoantennas with Asymmetric Nanoapertures,” Plasmonics 8, 495 (2013).
2012年
23. Xiaoyang Duan, Shuqi Chen*, Haifang Yang, Hua Cheng, Junjie Li, Wenwei Liu, Changzhi Gu, and Jianguo Tian, “Polarization insensitive and wide-angle plasmonically induced transparency by planar metamaterials in the near infrared regime,” Appl. Phys. Lett. 101, 143105 (2012).
22. Hua Cheng, Shuqi Chen*, Haifang Yang, Junjie Li, Xin An, Changzhi Gu and Jianguo Tian, “A polarization insensitive and wide-angle dual-band nearly perfect absorber in the infrared regime,” J. Opt. 14, 085102 (2012).
21. Hai Lu, Chunhua Xue, Yonggang Wu, Shuqi Chen, Xiaoliang Zhang, Haitao Jiang, Jianguo Tian and Hong Chen, “Enhanced nonlinear optical response of a planar thick metal film combined with a truncated photonic crystal,” Opt. Commun. 285, 5416 (2012).
20. Yan Li, Yudong Li, Weike Shi, Shuqi Chen,Guangzi Zhang, Zhibo Liu, Qian Sun, and Jianguo Tian, “Periodic microstructures fabricated by multiplex interfering femtosecond laser beams on graphene sheet,” Int. J. Nanomanufacturing 8, 221 (2012).
2011年
19. Shuqi Chen, Hua Cheng, Haifang Yang, Junjie Li, Xiaoyang Duan, Changzhi Gu and Jianguo Tian, “Polarization insensitive and omnidirectional broadband near perfect planar metamaterial absorber in the near infrared regime,” Appl. Phys. Lett. 99, 253104 (2011).
18. Jianxiong Li, Shuqi Chen*, Ping Yu, Hua Cheng, Wenyuan Zhou, and Jianguo Tian, “Large enhancement and uniform distribution of optical near field through combining periodic bowtie nanoantenna with rectangular nanoaperture array,” Opt. Lett. 36, 4014 (2011).
17. Shuqi Chen, Wenyuan Zhou, Zubin Li, Zhibo Liu and Jianguo Tian, “Study on Z-scan characteristics for light-tunneling heterostructures composed of one-dimensional photonic band gap material and metallic film,” J. Electromagnet. Waves. 25, 97 (2011).
16. Xin Liu, Shuqi Chen, Weiping Zang and Jianguo Tian, “Triple-layer guided-mode resonance Brewster filter consisting of a homogenous layer and coupled gratings with equal refractive index,” Opt. Express 19, 8233 (2011).
15. Lin Han, Shuqi Chen, Axel Schülzgen, Yong Zeng, Feng Song, Jianguo Tian and Nasser Peyghambarian, “Calculation and optimization of electromagnetic resonances and local intensity enhancements for plasmon metamaterials with sub-wavelength double-slots,” Prog. Electromagn. Res. 113, 161 (2011).
14. Xin Liu, Shuqi Chen,Weiping Zang and Jianguo Tian, “Optical limiting in one-dimensional photonic bandgap material with a bulk nonlinear defect,” J. Opt. 13, 015202 (2011).
13. Zhibo Liu, Li Li, Yanfei Xu, Jiajie Liang, Xin Zhao, Shuqi Chen, Yongsheng Chen, and Jianguo Tian, “Direct patterning on reduced graphene oxide nanosheets using femtosecond laser pulses,” J. Opt. 13, 085601 (2011).
2009年
12. Shuqi Chen, Weiping Zang, Axel Schülzgen, Xin Liu, Jianguo Tian, Jerome V. Moloney, and Nasser Peyghambarian, “Modeling of Z-scan characteristics for one-dimensional nonlinear photonic bandgap materials,” Opt. Lett. 34, 3665 (2009).
2008年
11. Shuqi Chen, Weiping Zang, Axel Schülzgen, Jinjie Liu, Lin Han, Yong Zeng, Jianguo Tian, Feng Song, Jerome V. Moloney, and Nasser Peyghambarian, “Implicit high-order unconditionally stable complex envelope algorithm for solving the time-dependent Maxwell's equations,” Opt. Lett. 33, 2755 (2008).
10. Shuqi Chen, Lin Han, Axel Schülzgen, Hongbo Li, Li Li, Jerome V. Moloney, and N. Peyghambarian, “Local electric field enhancement and polarization effects in a surface-enhanced Raman scattering fiber sensor with chessboard nanostructure,” Optics Express 16, 13016 (2008).
9. Lin Han, Feng Song, Shuqi Chen, Changguang Zou, Xiaochen Yu, Jianguo Tian, Jun Xu, Xiaodong Xu, and Guangjun Zhao, “Intense upconversion and infrared emissions in Er3+-Yb3+ codoped Lu2SiO5 and (Lu0.5Gd0.5)2SiO5 crystals,” Appl. Phys. Lett. 93, 011110 (2008).
2007年
8. Shuqi Chen, Weiping Zang, Zhibo Liu, Wenyuan Zhou, Yongfa Kong, and Jianguo Tian, “Method for measurements of second-order nonlinear optical coefficient based on Z-scan,” Opt. Commun. 274, 213 (2007).
7. Bing Zhang, Zhibo Liu, Shuqi Chen, Wenyuan Zhou, Weiping Zang, Jianguo Tian, Daibing Luo, and Zhiang Zhu, “Reverse saturable absorption of porphyrin-like complexes,” Acta. Phys. Sin. 56, 5252 (2007). (In Chinese)
2006年及以前
6. Shuqi Chen, Zhibo Liu, Weiping Zang, Jianguo Tian, Wenyuan Zhou, and Chunping Zhang, “Study on Z-scan characteristics for large optical nonlinear phase shift,” Acta. Phys. Sin. 55, 1211 (2006). (In Chinese)
5. Zhibo Liu, Yizhou Zhu, Yan Zhu, Shuqi Chen, Jianyu Zheng, and Jianguo Tian, “Nonlinear Absorption and Nonlinear Refraction of Self-Assembled Porphyrins,” J. Phys. Chem. B 110, 15140 (2006).
4. Zhibo Liu, Jianguo Tian, Jianyu Zheng, Zhiyu Li, Shuqi Chen, and Yan Zhu, “Active tuning of nonlinear absorption in a supramolecular zinc diphenylporphyrin-pyridine system,” Optics Express 14, 2770 (2006).
3. Shuqi Chen, Zhibo Liu, Weiping Zang, Jianguo Tian, Wenyuan Zhou, Feng Song, and Chunping Zhang, “Study on Z-scan characteristics for a large nonlinear phase shift,” J. Opt. Soc. Am. B 22, 1191 (2005).
2. Zhibo Liu, Jianguo Tian, Wenyuan Zhou, Shuqi Chen, Weiping Zang, Feng Song, and Jingjun Xu, “Characteristics of co-existence of third-order and transient thermally induced optical nonlinearities in nanosecond regime,” Opt. Commun. 245, 377 (2005).
1. Shuqi Chen, Zhibo Liu, Jianguo Tian, Wenyuan Zhou, Weiping Zang, Feng Song, and Chunping Zhang, “The influence of pulse width on transient thermally induced optical nonlinearitie s in a Kerr nonlinear medium,” Acta. Phys. Sin. 53, 3577 (2004). (In Chinese)
教學育人
教學工作:
2009年至今承擔本科生《大學基礎物理實驗》課程力熱和光學部分的教學工作;
2013年至今承擔伯苓班等離子激元光學部分學術報告;
2009年至今平均每年負責指導本科畢業論文2人;指導國家大學生創新性實驗計畫3項;協助田建國教授指導 博士生4人。
人才培養:
2011年於萍本科畢業論文獲得南開大學優秀畢業論文;
2012年指導國家大學生創新性實驗計畫獲三等獎;
2013年指導國家大學生創新性實驗計畫獲特等獎,同時獲得天津市第十二屆“挑戰杯”特等獎,全國第十三
屆“挑戰杯”二等獎;
2013年段瀟洋本科畢業論文獲南開大學優秀畢業論文,天津市優秀畢業論文。
榮譽獎勵
個人獎勵:
2014/11
入選南開大學百名青年學科帶頭人培養計畫
2013/10
入選教育部新世紀優秀人才支持計畫
2013/06
第十二屆“挑戰杯”天津市大學生課外學術科技作品競賽優秀指導教師
2012/10
榮獲南開大學捷成獎教金
學生獎勵:
2015/6
南開大學國家大學生創新性實驗計畫特等獎
2013/10
全國第十三屆“挑戰杯”二等獎
2013/9
天津市優秀本科畢業論文
2013/6
天津市第十二屆“挑戰杯”特等獎
2013/6
南開大學國家大學生創新性實驗計畫特等獎