MAO Haidan - 毛海丹

Author:Date:2020-07-07Views:257

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Personal information

Name: Mao Haidan

Office: Room 538, 6th Building,Hangzhou Dianzi Campus, Xiasha, Hangzhou  

Current occupation: School of Science,Hangzhou Dianzi University

Telephone: (86)-571-86919036

E-Mail: maohaidan@hdu.edu.cn


EDUCATION

Sep. 1998-July.2002, B. S. in Physics,Department of Physics, Zhejiang University, P. R. China

Sep. 2002-March. 2005, M. S. inPhysics, Department of Physics, Zhejiang University, P. R. China Sep.2007-June 2011, Ph. D in Physics, Department of Physics, ZhejiangUniversity, P. R. China


Professional Working Experience

2005-2007, Lecturer, School of Science,Hangzhou Dianzi University, Hangzhou, P. R. China

2007-2014, Assistant Professor, Schoolof Science, Hangzhou Dianzi University, Hangzhou, P. R. China

2015-present, Associate Professor,School of Science, Hangzhou Dianzi University, Hangzhou, P. R. China

2016.10-2017.10, Visiting Professor,Dalhousie University, Canada


RESEARCH INTEREST

My research interests include laserbeam propagation and transformation, manipulation of partiallycoherent light beams, surface pla**a polariton. The research worksthat I have participated in include:

National NaturalScience Joint Fund Project "fractional Fourier transform and itsapplication in high power laser system" won the NSAF fundexcellent award.


Selected Publications

1.  Mao H., Chen Y., Ponomarenko S., Friberg A., Coherent pseudo-moderepresentation of partially coherent surface pla**on polaritons,Optics Letters, 43(6), 1395-1398, 2018.

2.  Mao H., Chen Y., Liang C., Chen L., Cai Y., Ponomarenko S.,Self-steering partially coherent vector beams, Opt. Express, 27 (10),14353-14368, 2019.

3.  Mao H., Ge F., Chen L., Shi X., The influence of the bandwidth onbeam propagation factor and kurtosis parameter for a broadband beammodulated by a hard-edged aperture, Optik, 124(18), 3651-3654, 2013.

4.  Mao H., Du X., Chen L., Zhao D., Propagation of broadbandGaussian Schell-model beams in the apertured fractional Fouriertransformation systems, Journal of Optical Society of America A,28(6), 976-982, 2011.

5.  Mao H., Zhao D., Intensity distribution and coherence propertyfor the broadband Gaussian Schell-model array beams in free space,Optics Communications, 284(16-17), 3795-3801, 2011.

6.  Mao H., Zhao D., Second-order intensity-moment characteristicsfor broadband partially coherent flat-topped beams in atmosphericturbulence, Optics Express, 18(2), 1741-1755, 2010.

7.  Mao H., Zhao D., Parametric characteristics for a broadbandGaussian beam in free space, Applied Physics B, 100(3), 611-616,2010.

8.  Mao H., Zhao D., Studies of the characteristic parameters for aflattened-Gaussian beam through a defocusing lens, Optik, 118(2),57-61, 2007.

9.  Mao H., Zhao D., Three models for a hard aperture function andcorresponding approximate ****ytical propagation equations of aGaussian beam through an apertured optical system, Journal of OpticalSociety of America A, 22(4), 647-653, 2005.

10.  Zhao D., Mao H., Liu H., Propagation of off-axialHermite-cosh-Gaussian laser beams, Journal of Optics A, 6(1), 77-83,2004.


SUPPORTING FUNDING

  1. The propagation and application ofself-steering partially coherent vector beams, No. LY19A040011,Year: 2019-2021,

Natural ScienceFoundation of Zhejiang Province of China

  1. Coherence and polarizationcharacteristics and their application of noval broadband light

sources inspace-time domain, No. Q13A040021, Year: 2013-2016,

Natural ScienceFoundation of Zhejiang Province of China

  1. Coherence and polarizationcharacteristics and their physical mechani** of broadband light inspace-time domain under atmospheric turbulence perturbation, No.LQ13A040007, year: 2014.01-2014.12

National NaturalScience Foundation of China