Feature Issue on Photonics Based on Two Dimensional Materials

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Feature Issue on Photonics Based on Two Dimensional Materials
"Photonics Based on Two Dimensional Materials” (2D materials) is a rapidly
advancing research field. It includes the study of light­matter interaction in 2D
materials and the applications of 2D materials, such as light generation,
propagation, modulation and detection. Photonics Research recently published a feature issue that highlights new
results on both fundamental and applied research progress related to the
optics and photonics of 2D materials. This feature issue contains 16 papers,
including 5 invited papers authored by internationally recognized research
groups. The papers that have already been published are listed below. We hope
these articles will be helpful in your future research.
Introduction to the Photonics Based on Two­dimensional Materials feature issue
Abstract | Full Text: PDF | Enhanced HTML Photonics Research Vol. 3, Iss. 2, pp. PBTD1–PBTD1 (2015)
Han Zhang, Zhipei Sun, and Jun Wang
Sign of differential reflection and transmission in pump­probe spectroscopy
of graphene on dielectric substrate
Abstract | Full Text: PDF | Enhanced HTML Photonics Research Vol. 3, Iss. 2, pp. A1–A9 (2015)
Chengmin Gao, Xin Zhao, Jun Yao, Xiao­Qing Yan, Xiang­Tian Kong, Yongsheng Chen, Zhi­Bo
Liu, and Jian­Guo Tian
Band­gap modulation of two­dimensional saturable absorbers for solid­state
lasers
Abstract | Full Text: PDF | Enhanced HTML Photonics Research Vol. 3, Iss. 2, pp. A10–A20 (2015)
Shuxian Wang, Haohai Yu, and Huaijin Zhang
Dual­wavelength single­longitudinal­mode fiber laser with switchable
wavelength spacing based on a graphene saturable absorber
Abstract | Full Text: PDF | Enhanced HTML Photonics Research Vol. 3, Iss. 2, pp. A21–A24 (2015)
Jingjuan Zhou, Aiping Luo, Zhichao Luo, Xudong Wang, Xinhuan Feng, and Bai­ou Guan
Nanosecond­pulsed, dual­wavelength, passively Q­switched ytterbium­doped
bulk laser based on few­layer MoS2 saturable absorber
Abstract | Full Text: PDF | Enhanced HTML Photonics Research Vol. 3, Iss. 2, pp. A25–A29 (2015)
Fei Lou, Ruwei Zhao, Jingliang He, Zhitai Jia, Xiancui Su, Zhaowei Wang, Jia Hou, and Baitao
Zhang
Few­layer MoS2 saturable absorbers for short­pulse laser technology: current
status and future perspectives [Invited]
Abstract | Full Text: PDF | Enhanced HTML Photonics Research Vol. 3, Iss. 2, pp. A30–A42 (2015)
R. I. Woodward, R. C. T. Howe, G. Hu, F. Torrisi, M. Zhang, T. Hasan, and E. J. R. Kelleher
Soliton fiber laser mode locked with two types of film­based Bi2Te3 saturable
absorbers
Abstract | Full Text: PDF | Enhanced HTML Photonics Research Vol. 3, Iss. 2, pp. A43–A46 (2015)
Dong Mao, Biqiang Jiang, Xuetao Gan, Chaojie Ma, Yu Chen, Chujun Zhao, Han Zhang, Jianbang
Zheng, and Jianlin Zhao
Passive Q­switching and Q­switched mode­locking operations of 2  μm
Tm:CLNGG laser with MoS2 saturable absorber mirror
Abstract | Full Text: PDF | Enhanced HTML Photonics Research Vol. 3, Iss. 2, pp. A47–A50 (2015)
L. C. Kong, G. Q. Xie, P. Yuan, L. J. Qian, S. X. Wang, H. H. Yu, and H. J. Zhang
Tunable nonlinear refractive index of two­dimensional MoS2, WS2, and MoSe2
nanosheet dispersions [Invited]
Abstract | Full Text: PDF | Enhanced HTML Photonics Research Vol. 3, Iss. 2, pp. A51–A55 (2015)
Gaozhong Wang, Saifeng Zhang, Xiaoyan Zhang, Long Zhang, Ya Cheng, Daniel Fox, Hongzhou
Zhang, Jonathan N. Coleman, Werner J. Blau, and Jun Wang
Mode­locking of fiber lasers using novel two­dimensional nanomaterials:
graphene and topological insulators [Invited]
Abstract | Full Text: PDF | Enhanced HTML Photonics Research Vol. 3, Iss. 2, pp. A56–A63 (2015)
Grzegorz Sobon
Generation of cascaded four­wave­mixing with graphene­coated microfiber
Abstract | Full Text: PDF | Enhanced HTML Photonics Research Vol. 3, Iss. 2, pp. A64–A68 (2015)
Y. Wu, B. C. Yao, Q. Y. Feng, X. L. Cao, X. Y. Zhou, Y. J. Rao, Y. Gong, W. L. Zhang, Z. G. Wang, Y.
F. Chen, and K. S. Chiang
Few­layer MoS2­deposited microfiber as highly nonlinear photonic device for
pulse shaping in a fiber laser [Invited]
Abstract | Full Text: PDF | Enhanced HTML Photonics Research Vol. 3, Iss. 2, pp. A69–A78 (2015)
Ai­Ping Luo, Meng Liu, Xu­De Wang, Qiu­Yi Ning, Wen­Cheng Xu, and Zhi­Chao Luo
Nonlinear optical absorption of few­layer molybdenum diselenide (MoSe2) for
passively mode­locked soliton fiber laser [Invited]
Abstract | Full Text: PDF | Enhanced HTML Photonics Research Vol. 3, Iss. 3, pp. A79–A86 (2015)
Zhengqian Luo, Yingyue Li, Min Zhong, Yizhong Huang, Xiaojiao Wan, Jian Peng, and Jian Weng
Flexible, robust and highly efficient broadband nonlinear optical materials
based on graphene oxide impregnated polymer sheets
Abstract | Full Text: PDF | Enhanced HTML Photonics Research Vol. 3, Iss. 3, pp. A87–A91 (2015)
Xiao­Fang Jiang, Lakshminarayana Polavarapu, Hai Zhu, Rizhao Ma, and Qing­Hua Xu
Few­layer MoS2 grown by chemical vapor deposition as a passive Q­switcher
for tunable erbium­doped fiber lasers
Abstract | Full Text: PDF | Enhanced HTML Photonics Research Vol. 3, Issue 3, pp. A92­A96 (2015)
Handing Xia, Heping Li, Changyong Lan, Chun Li, Jinbo Du, Shangjian Zhang, and Yong Liu
Passively Q­switched tri­wavelength Yb3+:GdAl3(BO3)4 solid­state laser with
topological insulator Bi2Te3 as saturable absorber
Abstract | Full Text: PDF | Enhanced HTML Photonics Research Vol. 3, Issue 3, pp. A97­A101 (2015)
Yi­Jian Sun, Chao­Kuei Lee, Jin­Long Xu, Zhao­Jie Zhu, Ye­Qing Wang, Shu­Fang Gao, Hou­Ping
Xia, Zhen­Yu You, and Chao­Yang Tu
Feature Issue Editors
Han Zhang, Shenzhen University, China, [email protected]
Zhipei Sun, Aalto University, Finland, [email protected]
Jun Wang, SIOM, CAS, China, [email protected]
About Photonics Research
Co­published by The Optical Society (OSA), Chinese Laser Press (CLP), and the Shanghai Institute of
Optics and Fine Mechanics (SIOM), Photonics Research is an open­access journal which focuses on
publishing theoretical and applied progress in optics and photonics. For author submission
information, please visit OSA Author Resource Center. If you do not want to receive this kind of email, please click here to cancel the subscription. 
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