甘雪涛

的个人主页 http://teacher.nwpu.edu.cn/ganxuetao

  被浏览次数:2341

基本信息 The basic information

甘雪涛

理学院

博士研究生毕业

博士

教授

副主任

光学工程

xuetaogan@nwpu.edu.cn

工作经历 Work Experience

2013年11月-2013年12月,西北工业大学讲师;

2014年1月-2016年5月,西北工业大学副教授;

2016年5月-至今,西北工业大学教授;

教育经历 Education Experience

1984年出生于安徽省宿州市。

2007年毕业于西北工业大学获光信息科学与技术专业学士学位,

2010年至2012年,受国家留学基金委资助公派赴美国哥伦比亚大学电子工程系从事联合培养博士学习,师从著名纳米量子光学专家Dirk Englund教授(现任职于美国麻省理工学院)和光谱学专家Tony Heniz教授(现任职于美国斯坦福大学,

2013年毕业于西北工业大学获光学工程专业博士学位。 

教育教学 Education And Teaching

 承担课程:大学物理(全英文)、光波技术(双语)、非线性光学(研究生课程)、高等半导体光电子学(博士课程)

招生信息 Admission Information

课题组长期招收硕士生、博士生、博士后。欢迎具有物理、化学、材料和光电子/光通信背景的学生加盟。目前,课题组已搭建了多套实验系统,包括:多光子显微系统、正交偏振共聚焦显微系统、微纳光电子器件的调芯系统、低温(4K)荧光共聚焦系统、飞秒激光加工系统等,可提供优越的科研环境和待遇。欢迎具有物理、化学、材料和光电子/光通信背景的学生加盟。另外,本课题组学生有机会前往国外知名高校进行合作科研,如美国麻省理工学院、斯坦福大学、宾州州立大学、芬兰阿尔托大学、北京大学、华中科技大学等。如有意愿请发电子邮件至:xuetaogan@nwpu.edu.cn 

科学研究 Scientific Research

 主要从事微纳光子学、二维层状材料光电子学、光谱学等方面的基础和应用研究,致力于为新型光学信息处理、片上光学互连、光电子器件提供新理论、新技术。

学术成果 Academic Achievements

在国际著名SCI期刊上发表论文50余篇(JCR一区和二区论文30余篇);以第一或通信作者发表SCI论文包括:Nature Photonics1(影响因子:32,被《Nature》、《Nature Photonics》、《IEEE Spectrum》等国际重要学术期刊和网络杂志评论16次),Nano Letters2(影响因子:13.198,均被欧洲物理学会的《Nanotechweb.org》评论),IEEE Journal of Selected Topics of Quantum Electronics1(影响因子:4.078,邀请论文),Applied Physics Letters2(影响因子:3.794,其中1篇入选《Nature Photonics20128月的Research highlights),Optics Express1(影响因子:3.546,其中1篇被《Laser Focus World》专题评论),Light Science & Applications1(影响因子:14),Optica1Optics Letters2。已公开国际发明专利4项。此外,还撰写了一部题为“On-chip graphene optoelectronics”的专著章节,即将由英国传媒集团Informa旗下的CRC出版社出版。多次受邀在国际和国内学术会议上做邀请报告。

发表的期刊论文:

2017

1. Xuetao Gan*, Chenyang Zhao, Siqi Hu, Tao Wang, Yu Song, Jie Li, Qinghua Zhao, Wanqi Jie, and Jianlin Zhao*. Microwatts continuous-wave pumped second harmonic generation in few- and mono-layer GaSe. Light Science & Applications 2017, (已录用).

2. Xuetao Gan*, Chenyang Zhao, Qingchen Yuan, Liang Fang, Yongjiang Li, Jianbo Yin, Xiaoyan Ma, and Jianlin Zhao*. High performance graphene oxide-based humidity sensor integrated on a photonic crystal cavity. Applied Physics Letters 2017, 110: 151107.

3. Xiaomu Wang*, Xuetao Gan*, Graphene integrated photodetectors and opto-electronic devicesa review. Chinese Physics B 26: 034203 (2017). (邀请论文)

2016

1.   Chengyang Zhao, Qingchen Yuan, Liang Fang, Xuetao Gan*, Jianlin Zhao, High-performance humidity sensor based on a polyvinyl alcohol-coated photonic crystal cavity. Optics Letters 41: 5515 (2016).

2.   Lei Han, Sheng Liu, Peng Li, Yi Zhang, Huachao Cheng, Xuetao Gan, and Jianlin Zhao, Managing focal fields of vector beams with multiple polarization singularities. Applied Optics 55: 9049 (2016).

3.   Biqiang Jiang, Guolu Yin, Kaiming Zhou, Changle Wang, Xuetao Gan, Jianlin Zhao, Lin Zhang, Graphene-induced unique polarization tuning properties of excessively tilted fiber grating. Optics Letters, 41: 5450 (2016).

4.   Chenyang Zhao, Xuetao Gan*, Liang Fang, Lei Han, Kang Chang, Dongying Li, and Jianlin Zhao, Tunable Fano-like resonance enabled by coupling a microsphere with a fiber Mach–Zehnder interferometer, Applied Optics 55: 5756 (2016).

5.   Hua Lu, Xuetao Gan, Baohua Jia, Dong Mao, Jianlin Zhao, Tunable high-efficiency light absorption of monolayer graphene via Tamm plasmon polaritions. Optics Letters 41: 4743 (2016). 

6.   Yadong Wang, Xuetao Gan, Chenyang Zhao, Liang Fang, Dong Mao, Yiping Xu, Fanlu Zhang, Teli Xi, Liyong Ren, and Jianlin Zhao, All-optical control of microfiber resonator by graphene's photothermal effect. Applied Physics Letters 108: 171905 (2016)

7.   Chenyang Zhao, Xuetao Gan , Peng Li, Liang Fang, Lei Han, Luqi Tu, and Jianlin Zhao, Design of multicore photonic crystal fibers to generate cylindrical vector beams. Journal of Lightwave Technology 34: 4 1206 (2016).

8.   Sheng Liu, Peng Li, Yi Zhang, Xuetao Gan, Meirong Wang,and Jianlin Zhao*, Longitudinal spin separation of light and its performance in three-dimensionally controllable spin-dependent focal shift, Scientific Reports, 2016, 6: 20774-1-8

9.   Xuetao Gan, Yadong Wang, Fanlu Zhang Chenyang Zhao, Biqiang Jiang, Liang Fang, Dongying Li, Hao Wu, Zhaoyu Ren, Jianlin Zhao, Graphene-controlled fiber Bragg grating and enabled optical bistability. Optics Letters 41: 3 603 (2016).

2015

1.   Dong Mao, Biqiang Jiang, Xuetao Gan, Chaojie Ma, Yu Chen, Chujun Zhao, Han Zhang, Jianbang Zheng, and Jianlin Zhao, Soliton fiber laser mode locked with two types of film-based Bi2Te3 saturable absorbers. Photonics Research 3: A43 (2015).

2.   Dong Mao, Shengli Zhang, Yadong Wang, Xuetao Gan, Wending Zhang, Ting Mei, Yonggang Wang, Yishan Wang, Haibo Zeng, and Jianlin Zhao, Broadband Tungsten Disulfide Saturable Absorber for Dissipative Soliton Mode Locking at 1.55- and 1.06-μm, Optics Express, 2015, 23(21): 27509-27519.

3.   Sheng Gan, Chuantong Cheng, Yaohui Zhan, Beiju Huang, Xuetao Gan, Shaojuan Li, Shenghuang Lin, Xiaofeng Li, Jianlin Zhao, Hongda Chen, and Qiaoliang Bao, A highly efficient thermo-optic microring modulator assisted by graphene. Nanoscale 7: 20249 (2015).

4.   Biqiang Jiang, Xin Lu, Xuetao Gan, Mei Qi, Ya dong Wang, Lei Han, Dong Mao, Wending Zhang, Zhaoyu Ren, and Jianlin Zhao, Graphene-coated tilted fiber-Bragg grating for enhanced sensing in low-refractive-index region. Optics Letters 17: 3994 (2015).

5.   Xuetao Gan*, Xinwen Yao, Ren-Jye Shiue, Fariba Hatami, and Dirk Englund, Photonic crystal cavity-assisted upconversion infrared photodetector. Optics Express 23: 12998 (2015).

6.   Xuetao Gan, Chenyang Zhao, Yadong Wang, Dong Mao, Liang Fang, Lei Han, and Jianlin Zhao, Graphene-assisted all-fiber phase shifter and switching. Optica 2: 468 (2015).

7.   Yuanda Gao, Ren-Jye Shiue, Xuetao Gan, Luozhou Li, Cheng Peng, Inanc Meric, Lei Wang, Attila Szep, Dennis Walker, James Hone, and Dirk Englund, High-Speed Electro-Optic Modulator Integrated with Graphene- Boron Nitride Heterostructure and Photonic Crystal Nanocavity. Nano Letters 15: 2001 (2015).

8.   Yu Peng, Xuetao Gan, Pei Ju, Yadong Wang, and Jianlin Zhao, Measuring topological charges of optical vortices with multi-singularity using a cylindrical lens. Chinese Physics Letters 32: 024201 (2015).

9.   王亚东,甘雪涛,俱沛,庞燕,袁林光,赵建林, 利用非传统涡旋相位调控高阶涡旋光束的拓扑结构,物理学报 64 034204 2015.

10.  Dong Mao, Yadong Wang, Chaojie Ma, Lei Han, Biqiang Jiang, Xuetao Gan, Shijia Hua, Wending Zhang, Ting Mei, and Jianlin Zhao, WS2 mode-locked ultrafast fiber laser. Scientific Reports 5: 7965 (2015).

11.  Yadong Wang, Dong Mao, Xuetao Gan, Lei Han, Chaojie Ma, Teli Xi, Yi Zhang, Wuyun Shang, Shijia Hua, and Jianlin Zhao, Harmonic mode locking of bound-state solitons fiber laser based on MoS2 saturable absorber. Optics Express 23: 205 (2015).

2014

1.   Chenyang Zhao, Xuetao Gan, Sheng Liu, Yan Pang, and Jianlin Zhao. Generation of vector beams in planar photonic crystal cavities with multiple missing-hole defects. Optics Express 22: 9360 (2014).

2.   Peng Li, Sheng Liu, Tao Peng, Gaofeng Xie, Xuetao Gan, and Jianlin Zhao. Spiral autofocusing Airy beams carrying power-exponent-phase vortices. Optics Express 22: 7598 (2014).

3.   Xuetao Gan, Peng Zhang, Sheng Liu, Fajun Xiao, and Jianlin Zhao. Beam steering and topological transformations driven by the interactions between a discrete vortex soliton and a discrete fundamental soliton. Physical Review A 89: 013844 (2014). 

4.   Hannah Clevenson, Pierre Desjardins, Xuetao Gan, and Dirk Englund. High sensitivity gas sensor based on a high-Q suspended polymer photonic crystal nanocavity. Applied Physics Letters 104: 241108 (2014).

2013

1.   Xuetao Gan, Yuanda Gao, Kin Fai Mak, Xinwen Yao, Ren-Jye Shiue, Arend van der Zande, Matthew Trusheim, Fariba Hatami, Tony F. Heinz, James Hone, and Dirk Englund. Controlling the spontaneous emission rate of monolayer MoS2 in a photonic crystal nanocavity. Applied Physics Letters 103: 181119 (2013).

2.   Ren-Jye Shiue*, Xuetao Gan*, Yuanda Gao*, Luozhou Li, Xinwen Yao, Attila Szep, Dennis Walker, Jr. James Hone, and Dirk Englund. Enhanced photodetection in graphene integrated photonics crystal cavities. Applied Physics Letters 103: 241109 (2013). 

3.   Xuetao Gan*, Ren-Jye Shiue*, Yuanda Gao, Inanc Meric, Tony Heinz, Kenneth Shepard, James Hone, Solomon Assefa, and Dirk Englund. Chip-integrated ultrafast graphene photodetector with high responsivity. Nature Photonics 7: 883 (2013). 

4.   Xuetao Gan, Ren-Jye Shiue, Yuanda Gao, Solomon Assefa, James Hone, and Dirk Englund. Controlled light-matter interaction in graphene electro-optic devices using nanophotonic cavities and waveguides. IEEE, Journal of Selected Topics in Quantum Electronics 20: 6000311 (2014). (Invited paper)

5.   Xuetao Gan, Hannah Clevenson, Cheng-Chia Tasi, Luozhou Li, and Dirk Englund. Nanophotonic filters and integrated networks in flexible 2D polymer photonic crystals. Scientific Reports 3: 2145 (2013).

6.   Xuetao Gan, Ren-Jye Shiue, Yuanda Gao, Kin Fai Mak, Xinwen Yao, Luozhou Li, Attila Szep, Dennis Walker, James Hone, Tony F. Heinz, and Dirk Englund. High-contrast electrooptic modulation of a photonic crystal nanocavity by electrical gating of graphene. Nano Letters 13(2): 691 (2013).

2012

1.   Xuetao Gan, Kin Fai Mak, Yuanda Gao, Yumeng You, Fariba Hatami, James Hone, Tony F. Heinz, and Dirk Englund. Strong enhancement of light-matter interaction in graphene coupled to a photonic crystal nanocavity. Nano Letters 12(11): 5626 (2012). 

2.   Xuetao Gan, Pervez Nadia, Ioannis Kymissis, Hatami Fariba, and Dirk Englund. A high-resolution spectrometer based on a compact planar two dimensional photonic crystal cavity array. Applied Physics Letters 100(23): 231104 (2012).

3.   Sheng Liu, Yi Hu, Peng Zhang, Xuetao Gan, Cibo Lou, Daohong Song, Jianlin Zhao, Jingjun Xu, and Zhigang Chen. Tunable self-shifting Bloch modes in anisotropic hexagonal photonic lattices. Optics Letters 37(12): 2184 (2012).

4.   Peng Li, Jianlin Zhao, Sheng Liu, Xuetao Gan, Tao Peng, and Xiangyang Jiao. Dynamic behaviors of optical vortices in dual-core photonic crystal fibers. Optics Communications  285(9): 2355 (2012).

5.   Sheng Liu, Yi Hu, Peng Zhang, Xuetao Gan, Cibo Lou, Daohong Song, Jianlin Zhao, Jingjun Xu, and Zhigang Chen. Symmetry-breaking diffraction and moving nonlinear state in optically induced hexagonal photonic lattices. Applied Physics Letters 100(6): 061907  (2012).

2011

1.   Sheng Liu, Yi Hu, Peng Zhang, Xuetao Gan, Fajun Xiao, Cibo Lou, Daohong Song, Jianlin Zhao, Jingjun Xu, and Zhigang Chen. Anomalous interactions of spatial gap solitons in optically induced photonic lattices. Optics Letter 36(7):1167 (2011).

2.   Zaifei Song, Sheng Liu, Xuetao Gan, Jianlin Zhao, and Enpu Li. Rotating properties of Bragg reflections and spatial lattice solitons in rotating photonic lattices. Chinese Optics Letters 9(7): 070801 (2011).

3.   Xiangyang Jiao, Sheng Liu, Qian Wang, Peng Li, Xuetao Gan, and Jianlin Zhao. Redistributable energy flow in focal field of azimuthally polarized beam azimuthally obstructed with multi-sector. Optics Letters 37(6): 1041 (2011).

4.   Bo Feng, Xuetao Gan, Sheng Liu, and Jianlin Zhao. Transformation of multi-edge-dislocations to screw-dislocations in optical field. Acta Physica Sinica 60(9): 094203 (2011). (in Chinese)

2010

1.   Sheng Liu, Peng Zhang, Xuetao Gan, Fajun Xiao, and Jianlin Zhao. Visualization of Bragg reflection of complex photonic lattices by employing Brillouin zone spectroscopy. Applied Physics B 99(4): 727 (2010).

2.   Sheng Liu, Peng Zhang, Xuetao Gan, Fajun Xiao, and Jianlin Zhao. Interaction of in-band and in-gap lattice soliton trains in optically induced two-dimensional photonic lattices. Chinese Physics B 19(6): 065203 (2010).

3.   Liang Fang, Jianlin Zhao,and Xuetao Gan. Ultra-flattened dispersion photonic crystal fiber for the supercontinuum generation. Chinese Optics Letters 8(11): 1028 (2010).

4.   Fajun Xiao, Peng Zhang, Sheng Liu, Xuetao Gan, and Jianlin Zhao. Incoherent interaction between one- and two-dimensional solitons in noncentrosymmetric photorefractive media. Chinese Physics B 19(4): 044208 (2010).

5.   Liang Fang, Jianlin Zhao, Xuetao Gan, Peng Li, and Xiaojuan Zhang. Generation and control of supercontinuum in photonic crystal fibers with two-zero dispersion wavelengths. Acta Photonica Sinica 39(11): 1921 (2010). (in Chinese)

6.   Dexing Yang, Xiaoyuan Ren, Dongsheng He, Yong Cui, and Xuetao Gan. Propagation and evaluation of lateral linear momentum of optical vortices. Acta Optica Sinica 30(11): 3323 (2010). (in Chinese)

2009

1.   Xuetao Gan, Peng Zhang, Sheng Liu, Youming Zheng, Jianlin Zhao, and Zhigang Chen. Stabilization and breakup of optical vortices in presence of hybrid nonlinearity. Optics Express 17(25): 23130-23136 (2009).

2.   Hao Wang, Dexing Yang, Xuetao Gan, and Jianlin Zhao. Analysis of interference of planar vortex beams. Acta Optica Sinica 29(2): 517 (2009). (in Chinese)

3.   Xuetao Gan, Jianlin Zhao, Sheng Liu, and Liang Fang. Generation and motion control of optical multi-vortex. Chinese Optics Letters 7(12): 1142-1145 (2009).

4.   Sheng Liu, Peng Zhang, Fajun Xia, Xuetao Gan, Jianlin Zhao, Analysis of linear defect modes in two-dimensional photonic lattices by employing Brillouin zone spectroscopy. Acta Physica Sinica 58: 5467 (2009). (in Chinese)

2008

1.   Xuetao Gan, Peng Zhang, Sheng Liu, Fajun Xiao, and Jianlin Zhao. Solitary wave evolution of optical planar vortices in self-defocusing photorefractive media. Chinese Physics Letters 25(9): 3280 (2008).

国际会议论文

1. Xuetao Gan, Ren-Jye Shiue, Yuanda Gao, Kin Fai Mak, Xinwen Yao, Luozhou Li, Attila Szep,Dennis Walker, James Hone, Tony F. Heinz, and Dirk Englund. Electro-optical modulation in graphene integrated photonic crystal nanocavities.CLEO/QELS, May, 2013, San Jose, USA.(Oral)

2. Hannah Clevenson, Pierre Desjardins,Xuetao Gan, and Dirk Englund. Gas sensing using a resilient polymer photonic crystal nanocavity with ultra-high quality factor.CLEO/QELS, May, 2013, San Jose, USA.(Oral)

3. Xuetao Gan, Kin Fai Mak, Tony F. Heniz, and Dirk Englund. Strong enhancement of graphene-light interaction in a photonic crystal nanocavity.OSA’s 96th Annul Meeting: Frontiers in Optics 2012 and Laser Science XXVIII, October, 2012, Rochester, USA. (Oral,Postdeadline paper)

4. Xuetao Gan, Cheng-Chia Tsai, Hannah Clevenson, Luozhou Li, and Dirk Englund. Suspended Polymer Photonic Crystal Networks.OSA’s 96th Annul Meeting: Frontiers in Optics 2012 and Laser Science XXVIII, October, 2012, Rochester, USA. (Oral,Emil Wolf Outstanding Student Paper Competition Finalists)

5. Sheng Liu, Yi Hu, Peng Zhang,Xuetao Gan, Jianlin Zhao, Cibo Lou, Daohong Song, and Zhigang Chen. Observation of symmetry-breaking beam dynamics in optically induced hexagonal photonic lattices. CLEO/QELS, May, 2011, Maryland, USA.(Poster)

6. Xuetao Gan, Sheng Liu, Peng Zhang, and Jianlin Zhao. Controllable band-gap structure and mini-gap solitons in two-dimensional photonic superlattices. CLEO/QELS, May, 2010, San Jose, USA.(Poster)

7. Sheng Liu, Peng Zhang,Xuetao Gan, and Jianlin Zhao. Symmetry-broken diffraction and self-trapping of multi-vortex beams in triangle photonic lattices. OSA’s 93nd Annul Meeting: Frontiers in Optics 2009 and Laser Science XXV, October, 2009, San Jose, USA. (Oral)

8. Xuetao Gan, Peng Zhang, Sheng Liu, Fajun Xiao, and Jianlin Zhao. Evolution of optical vortices in light-induced photonic lattices under nonconventional bias conditions. International conference: Nonlinear Waves-Theory and Applications, June, 2008, Beijing, China.(Oral)

9. Xuetao Gan, Peng Zhang, Sheng Liu, Fajun Xiao, and Jianlin Zhao. Interaction between discrete vortex soliton and fundamental discrete soltion in 2D optically induced photonic lattices. The OSA Topical Conference on Nanophotonics’08, May, 2008, Nanjing, China.(Oral)

10. Sheng Liu, Peng Zhang, Fajun Xiao,Xuetao Gan, and Jianlin Zhao. Interaction of lattice soliton trains in optically induced 2D photonic lattices with self-defocusing nonlinearity. The OSA Topical Conference on Nanophotonics’08, May, 2008, Nanjing, China.(Oral)

11. Sheng Liu, Peng Zhang, Fajun Xiao,Xuetao Gan, and Jianlin Zhao. Anomalous interaction of spatial gap solitons in optically induced photonic lattices. International conference: Nonlinear Waves-Theory and Applications, June, 2008, Beijing, China.(Oral)

12. Fajun Xiao, Peng Zhang, Sheng Liu,Xuetao Gan, and Jianlin Zhao. Optical Bloch oscillation stimulated by interaction between discrete solitons. International conference: Nonlinear Waves-Theory and Applications, June, 2008, Beijing, China.(Oral)

著作章节

1. Xuetao Gan, Ren-Jye Shiue, and Dirk Englund. On-chip graphene optoelectronic devices. Invited book chapter inHandbook of Graphene Science,CRC press(Taylor & Francis Group) (2013).

发明专利

1. Dirk EnglundandXuetao Gan, “Systems and methods for chip-integrated infrared silicon detector”, US patent, No.WO/2013/176759.

2. Dirk EnglundandXuetao Gan, “Graphene Photonics for resonator-enhanced ultrafast electro-optic processes and all-optical interactions”,US patent, No.WO/2013/148349.

3. Dirk EnglundandXuetao Gan, “Photonic crystal cavity array”, US patent, No.WO/2013/158842.

4. Dirk EnglundandXuetao Gan, “Systems and methods for suspended polymer photonic crystal cavities and waveguides”, US patent, No.WO/2013/090177.

新闻报道

1. The work on “Chip-integrated ultrafast graphene photodetector with high responsivity” (published inNature Photonics) was featured byNature | Newstitled with “Graphene makes light work of optical signals”.Doi: 10.1038/nature.2013.13744

2. The work on “Chip-integrated ultrafast graphene photodetector with high responsivity” (published inNature Photonics) was featured byNature | Research Highlightstitled with “Graphene see light”.Doi: 10.1038/501284b

3. The work on “Chip-integrated ultrafast graphene photodetector with high responsivity” (published inNature Photonics) was featured byNature Photonics | News and Viewstitled with “Silicon photonics: Graphene benefits”.Doi: 10.1038/nphoton.2013.257

4. The work on “Chip-integrated ultrafast graphene photodetector with high responsivity” (published inNature Photonics) was featured by news media ofIEEE Spectrum,Phys.Org,Photonics.com,Nanotechweb.org,NanoWerk,MIT News,GIZMODO,LiveMint,R&D TM,MIT Technology Review,Investorintel, NPR Marketplace.

http://web.mit.edu/newsoffice/2013/graphene-could-yield-cheaper-optical-chips-0915.html

http://phys.org/news/2013-09-graphene-yield-cheaper-optical-chips.html

http://www.nanowerk.com/news2/newsid=32277.php

http://gizmodo.com/graphene-computer-chips-run-on-light-instead-of-electri-1325215948

http://www.photonics.com/Article.aspx?AID=54911

http://www.livemint.com/Opinion/FxsGzw2YjLkckALGFnDciI/The-graphene-revolution.html

http://spectrum.ieee.org/nanoclast/semiconductors/optoelectronics/graphene-leading-the-way-to-optical-chips

http://phys.org/news/2013-09-photonics-graphene-boosts-on-chip-detectors.html

http://www.rdmag.com/news/2013/09/graphene-could-yield-cheaper-optical-chips

http://nanotechweb.org/cws/article/tech/54812

http://www.technologyreview.com/news/519441/graphene-could-make-data-centers-and-supercomputers-more-efficient/

http://investorintel.com/graphite-graphene-intel/graphene-making-computing-greener-faster-cheaper/

http://www.marketplace.org/topics/tech/graphene-omg-magic-material-elephant-standing-pencil-couldnt-break

5. The work on “High-contrast electrooptic modulation of a photonic crystal nanocavity by electrical gating of graphene” (published inNano Letters) was featured byNanotechweb.orgtitled with “Gated graphene makes high-contrast modulator”.

http://nanotechweb.org/cws/article/tech/52215

6. The work on “Strong enhancement of light-matter interaction in graphene coupled to a photonic crystal nanocavity” (published inNano Letters) was featured byNanotechweb.orgtitled with “Nanocavity helps graphene absorb more light”.

http://nanotechweb.org/cws/article/tech/51283

 7. The work on “A high-resolution spectrometer based on a compact planar two dimensional photonic crystal cavity array” (published inApplied Physics Letters) was featured byNature Photonics | Research Highlightstitled with “Photonic Cyrstal: Spectrometer Success”. Doi: 10.1038/nphoton.2012.20