Lecturer

Phone: 027-87558097

Email: zgzlaser@hust.edu.cn

Academic Areas: Laser technology and high power optical electronics devices.

A laser researcher, Zhu Guangzhi is the lecturer of school of optical and electronic information. He focuses on high power solid-state laser and high power optical electronics devices such as thin disk crystal module, fiber end cap, fiber combiner and so on. His researches are widely published in the leading optics journals. Nearly 10 patents in solid-state laser research field are acquired including 2 international patents. He has also taught the principle of laser, Laser experimental at Huazhong university of Science and Technology. In 2012, the invention patent named A kind of Thin Disk Laser, acquired International invention award. 

Academic Degrees

  1. 2005/09 – 2009/06, PhD in Physical electronics of HUST.
  2. 2000/09 – 2003/06, Master in Physical electronics of HUST.
  3. 1996/09 – 2000/06, Bachelor in Electrical Engineering of HUST.

Professional Experience

2000~-present, Huangzhong University of Science and Technology.

Selected Publications

[1] Jianli Shang, Xiao Zhu*, and Guangzhi Zhu, Analytical approach to thermal lensing in end-pumped Yb:YAG thin-disk laser, Appl.Opt., 50(32), 6103~6120, 2011.

[2] Guangzhi Zhu, Xiao Zhu*, Changhong Zhu, Jianli Shang, Hailin Wan, Fei Guo, Lijun Qi, Modeling of end-pumped Yb:YAG thin-disk lasers with nonuniform temperature distribution. Appl.Opt., 51(14), 2521~2531, 2012.

[3] Guangzhi Zhu*, Xiao Zhu, Changhong Zhu, and Jianli Shang, Optical model and optimal output coupler for a continuous wave Yb:YAG thin-disk laser with multiple-disk configuration. Appl.Opt., 51(26), 6411~6420, 2012.

[4] Jianli shang*, Xiao Zhu, Guangzhi Zhu, and Wei Wang, The influences of amplified spontaneous emission, crystal temperature and round-trip loss on scaling of CW thin-disk laser. Optics and Technology, 44(5), 1359~1357,2012.

[5] Guangzhi Zhu*, Xiao Zhu, and Changhong Zhu, Analytical approach of Laser beam propagation in the hollow polygonal light pipe, Appl.Opt., 52(23), 5619~5630, 2013.

[6] Guangzhi Zhu*, Xiao Zhu, and Changhong Zhu, Numerical analysis of an end-pumped Yb:YAG thin disk laser with variation of a fractional thermal load, Appl.Opt., 59(13), 4349~4358, 2014.

[7] Zhu Guangzhi, Zhu Xiao et.al. Analytical model of thermal effect and optical path difference in end-pumped Yb:YAG thin disk laser, Appl.Opt. 53(29),2014

[8] Zhu Guangzhi, Zhu Xiao et.al. Analytical model of optical path difference in an end-pumped Yb:YAG thin-disk laser with nonuniform pumping light. Appl.Opt. 54(10) 3024-3031, 2015. 

[9] Huang Yan, Zhu Xiao, Zhu Guangzhi, A multi-pass pumping scheme for thin disk lasers with good anti-disturbance ability. Optics Express .23(4), 4605-4613, 2015;

Awards and Honors

International invention award. 2012 Geneva

Courses Taught

The principle of Laser. 

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