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2019

10.Dae Wook Kim, Isaac Trumper, Logan Graves, Maham Aftab, Heejoo Choi, Brian Kellermeyer, Lei Huang, Andrew E. Lowman, and Chang Jin Oh, “Fabrication and Measurement of Large Scale Freeform Optics”, in Optical Design and Fabrication 2019 (Freeform, OFT), OSA Technical Digest (Optical Society of America, 2019), paper JW1A.6.

9.Heejoo Choi, John Kam, Joel D. Berkson, Logan R. Graves, Lei Huang, and Dae Wook Kim*, “Robust and Objective Automatic Optical Surface Inspection using Modulated Dark Field Phasing Illumination”, Proc SPIE, 11102, Applied Optical Metrology III, Optical Engineering Applications, 11-15 August 2019.

8.Yamin Zheng, Licheng Sun, Chuang Sun, Shibing Lin, and Lei Huang*, “The surface shape testing and close-loop performance of a deflectometry system”, Proc SPIE, 11107, Laser Beam Shaping XIX, Optical Engineering Applications, 11-15 August 2019.

7.Chuang Sun, Licheng Sun, Yaming Zheng, Shibing Lin, and Lei Huang*, “Research on the characteristics, mechanism and compensation method of the temperature-induced surface distortion of deformable mirror”, Proc SPIE, 11107, Laser Beam Shaping XIX, Optical Engineering Applications, 11-15 August 2019.

6.Licheng Sun, Tinghao Liu, Xing Fu, Yading Guo, Xiaojun Wang, Chongfeng Shao, Yamin Zheng, Chuang Sun, Shibin Lin, and Lei Huang*, “1.57 times diffraction limited high-energy laser based on a Nd:YAG slab amplifier and an adaptive optics system”, Chinese Optics Letters, Mar 10 2019, Vol. 17, Issue 5, 051403. (SCI)

5.Chuang Sun, Lei Huang*, Deen Wang, Xuewei Deng, Dongxia Hu, Licheng Sun, and Yamin Zheng, “Theoretical research on the novel adaptive optics configuration based on the tubular deformable mirror for the aberration correction of the annular laser beam”, Optics Express, 18 Mar 2019, Vol. 27, No. 6, p9215-9231. (SCI)

4.Licheng Sun, Yamin Zheng, Chuang Sun, Shibing Lin, Deen Wang, and Lei Huang*, “Simulational and experimental investigation on the print-through high-frequency aberration of the shear-joint NIF deformable mirror”, Optics Express, 8 July 2019, Vol. 27, No. 14, p19503-19519. (SCI)

3.Chuang Sun, Deen Wang, Xuewei Deng, Qiang Yuan, Dongxia Hu, Licheng Sun, Yamin Zheng and Lei Huang*, “Numerical analysis of a novel two-stage enlargement and adaptive correction approach for the annular aberration compensation”, Optics Express, 2 September 2019, Vol. 27, No. 18, p25205-25227. (SCI)

2.Yamin Zheng, Chuang Sun, Shibing Lin, Licheng Sun, Wanjun Dai, Fa Zeng, Deen Wang, Wenchuan Zhao, and Lei Huang*, High precision wavefront correction using an influence function optimization method based on a hybrid adaptive optics system, Optics Express, 25 November 2019, Vol. 27, No. 24, p34937-34951. (SCI)

1.Zexin Feng, and Lei Huang*, “Over compensation algorithm for laser beam shaping using a deformable freeform mirror”, Optik, 2019, 198. (SCI)

2018

9.Licheng Sun, Lei Huang*, Yamin Zheng, and Chuang Sun, “Intracavity deformable mirror for the performance improvement of a passively Q-switched laser”, Proc SPIE, 10811, High-Power Lasers and Applications IX, 108110G (5 November 2018).

8.Licheng Sun, Lei Huang*, Meng Yan, Junbiao Fan, Yamin Zheng, and Chuang Sun, “Intracavity deformable mirror for beam quality improvement and power enhancement of a passively Q-switched laser”, Optics Express, 2 Apr 2018, Vol. 26, No. 7, p8594-8608. (SCI)

7.Licheng Sun, Lei Huang*, Meng Yan, Junbiao Fan, Yamin Zheng, and Chuang Sun, “Intracavity deformable mirror for beam quality improvement and power enhancement of a passively Q-switched laser”, Optics Express, 2 Apr 2018, Vol. 26, No. 7, p8594-8608. (SCI)

6.Meng Yan, Lei Huang*, Licheng Sun, and Junbiao Fan, “Laser thermal distortion all-time metrology system for solid-state laser based on phase measuring deflectometry”, Optics Communications, SEP 15 2018, Vol. 423, 134–139. (SCI)

5.Junbiao Fan, Lei Huang*, Licheng Sun, Meng Yan, Yamin Zheng, and Chuang Sun, “Simulation and analysis of the thermal aberration dynamic compensation based on the cascaded multi-crystal system (CMCS)”, Optics Communications, 2018, Vol. 426, 375-382. (SCI)

4.Meng Yan, Lei Huang*, Licheng Sun, and Junbiao Fan, “Sub-regional wavefront hybrid algorithm for limited actuators deformable mirror”, Optics Communications, 2018, Vol. 426, 435-442. (SCI)

3.Licheng Sun, Yading Guo, Chongfeng Shao, Yang Li, Yamin Zheng, Chuang Sun, Xiaojun Wang, and Lei Huang*, “10.8 kW, 2.6 times diffraction limited laser based on a continuous wave Nd:YAG oscillator and an extra-cavity adaptive optics system”, Optics Letters, September 1 2018, Vol. 43, No. 17, 4160-4163. (SCI)

2.Licheng Sun, Yamin Zheng, Chuang Sun, and Lei Huang*, “Simulational and experimental investigation on the actuator-corresponding high-frequency aberration of the piezoelectric stacked array deformable mirror”, Optics Express, 3 Sep 2018, Vol. 26, No. 18, p23613-23628. (SCI)

1.Chuang Sun, Licheng Sun, Yamin Zheng, Shibin Lin, and Lei Huang*, “Theoretical and experimental research on the temperature-induced surface distortion of deformable mirror”, Optics Express, 26 Nov 2018, Vol.26, No. 24, 32205-32224. (SCI)

2017

7.Maham Aftab, Isaac Trumper, Lei Huang, Heejoo Choi, Wenchuan Zhao, Logan Graves, and Dae Wook Kim*, “Dynamic Metrology and Data Processing for Precision Optics Fabrication and Testing”, Proc. SPIE 10326, APR 04-05, 2017, 4th European Seminar on Precision Optics Manufacturing.

6.(Inivited Talk) “Development of Large Aperture Deformable Mirror and its application”, Research Center of Laser Fusion, China Academy of Engineering Physics, Mianyang, Sichuan, China, March 2017.

5.(Inivited Talk)“Online dynamic laser thermal distortion metrology”, Technical Institute of Physics and Chemistry, Chinese Academy of Sciences, Beijing, China, May 2017.

4.(Inivited Paper) Lei Huang*, “Adaptive online dynamic metrology based on deflectometry controlled deformable mirror”, Applied Optics and Photonics China, June 2017, Beijing, China.

3.Lei Huang*, Chenlu Zhou, Wenchuan Zhao, Heejoo Choi, Logan Graves, and Dae Wook Kim, “Close-loop Performance of a High Precision Deflectometry Controlled Deformable Mirror (DCDM) Unit for Wavefront Correction in Adaptive Optics System”, Optics Communications, 15 June 2017, Vol. 393, pp.83-88. (SCI)

2.Lei Huang*, Chenlu Zhou*, Xingkun Ma, Meng Yan, and Junbiao Fan, “Wavefront correction performed by a low-cost deformable mirror group in a small-aperture-beam fiber laser”, Applied Optics, March 10 2017, Vol. 56, No. 8, pp.2176-2182. (SCI)

1.Yiwei He, Lei Huang, Hou Xi, Fan Wu, and Rongguang Liang, “Modeling near-null testing method of freeform surface with deformable mirror compensator”, Applied Optics, November 20 2017, Vol. 56, No. 33, pp.9132-9138. (SCI)

2016

8.Meng Yan, Lei Huang*, Qi Bian, Chenlu Zhou, Xingkun Ma, and Mali Gong, “Location-grouping algorithm based on limited actuators deformable mirror for high precision wavefront aberration correction in adaptive optics system”, Proc. SPIE 9909, July 27, 2016, Adaptive Optics Systems V, 990942.

7.Lei Huang*, Chenlu Zhou, Mali Gong, Xingkun Ma, and Qi Bian, “Development of a novel three-dimensional deformable mirror with removable influence functions for high precision wavefront correction in adaptive optics system”, Proc. SPIE 9909, 27 July 2016, Adaptive Optics Systems V, 990942.

6.Lei Huang*, Meng Yan, Qi Bian, Chenlu Zhou, and Mali Gong, “Experimental investigation of a thermo-field bimetal deformable mirror with aluminum base”, in Imaging and Applied Optics 2016, OSA Technical Digest (online) (Optical Society of America, 2016), paper AOT1C.4.

5.(Inivited Talk) “Tailored Displays to Compensate for Visual Aberrations”, College of Optical Sciences, the University of Arizona, Tucson, AZ, USA, January 2016.

4.Yuan Qiu*, Lei Huang, and Wei Wang, “Application of Pulse Compression in Laser Range-finding”, Modern Electronics Technique, 2016, Vol.39, No.466 (11), pp.59-62.

3.Lei Huang, Qi Bian*, Chenlu Zhou, Tenghao Li, and Mali Gong, “Wavefront sensing based on phase contrast theory and coherent optical processing”, Chinese Physics B, May 2016, Vol.25, No.7, 070701. (SCI)

2.Qi Bian, Lei Huang*, Xingkun Ma, Qiao Xue, and Mali Gong, “Effect of the particular temperature field on a National Ignition Facility deformable mirror”, Optics Communications, 1 September 2016, Volume 374, pp.119–126. (SCI)

1.Lei Huang, Heejoo Choi, Wenchuan Zhao, Logan R Graves, and Dae Wook Kim*, “Adaptive interferometric null testing for unknown freeform optics metrology”, Optics Letters, December 1 2016, Vol. 41, No. 23, pp.5539-5542. (SCI)

2015

6.(Inivited Paper) Zexin Feng*, Brittany D. Froese, Lei Huang*, Mali Gong, Guofan Jin, and Rongguang Liang*, “Freeform optical beam shaping following an optimal transport map”, in Frontiers in Optics 2015, OSA Technical Digest (online) (Optical Society of America, 2015).

5.Xing Fu, Qiang Liu, Peilin Li, Lei Huang, and Mali Gong*, “Numerical simulation of 30-kW class liquid-cooled Nd:YAG multi-slab resonator”, Optics Express, July 2015, Vol.23, No.14, pp.18458-18470. (SCI)

4.Lei Huang, Xingkun Ma*, Mali Gong, and Qi Bian, “Experimental investigation of the deformable mirror with bidirectional thermal actuators”, Optics Express, 29 June 2015, Vol.23, No.13, pp.17520-17530. (SCI)

3.Lei Huang, Xingkun Ma*, Qi Bian, Tenghao Li, Chenlu Zhou, and Mali Gong, “High-precision system identification method for a deformable mirror in wavefront control”, Applied Optics, 10 May 2015, Vol.54, No.14, pp.4313-4317. (SCI)

2.Xingkun Ma, Lei Huang*, Mali Gong, and Qi Bian, “Wavefront correction in a multi-reflection waveguide with alterable influence functions”, Optics Communications, 15 March 2015, Vol.339, pp.171-176. (SCI)

1.Qi Bian, Lei Huang*, Xuejiao Wang, Xingkun Ma, Ping Yan, and Mali Gong, “Experimental investigation on the beam quality improvement of the fiber laser by adaptive optics”, Laser Physics, December 2015, Vol. 25, No.12, pp.125101 (8pp). (SCI)

2014

9.(Inivited Talk) “Development of Deformable Mirror in NIF system”, Research Center of Laser Fusion, China Academy of Engineering Physics, Mianyang, Sichuan, China, August 2014.

8.Qiang Liu*, Fei Wang, Hailong Hong, Lei Huang, and Mali Gong, “Investigation of UV laser-induced damage by precursors at the surface of LBO crystal”, Journal of the Optical Society of America B, February 2014, Vol.31, No.2, pp.189-194. (SCI)

7.Xingkun Ma, Lei Huang*, Qi Bian, and Mali Gong, “Wavefront correction performed by a deformable mirror of arbitrary actuator pattern within a multireflection waveguide”, Applied Optics, 10 September 2014, Vol.53, No.26, pp.5917-5923. (SCI)

6.Xingkun Ma, Lei Huang*, Mali Gong, and Qiao Xue, “Trans-reflection thermal driven deformable mirror with flexible bonding in high energy laser system”, Optics Communications, 1 September 2014, Vol.326, pp.166-169. (SCI)

5.Zexin Feng, Lei Huang*, and Mali Gong, “Focal-plane irradiance tailoring using the concept of woofer-tweeter deformable mirrors”, Optics Express, April 2014, Vol.22, No.8, pp.8871-8879. (SCI)

4.Tenghao Li, Lei Huang*, and Mali Gong, “Wavefront sensing for a nonuniform intensity laser beam by Shack-Hartmann sensor with modified Fourier domain centroiding”, Optical Engineering, April 2014, Vol.53, No.4. (SCI)

3.Qiao Xue, Lei Huang*, Ping Yan, Mali Gong, Yuntao Qiu, Tenghao Li, Zexin Feng, Xingkun Ma, and Yunbin Wang, “Optimized structure parameters of deformable mirrors for wavefront correction in high power laser system”, Laser Physics, February 2014, Vol.24, No.2, pp.025002 (4 pp.). (SCI)

2.Qiao Xue, Lei Huang*, Dongxia Hu*, Ping Yan, and Mali Gong, “Research on controlling thermal deformable mirror's influence functions via manipulating thermal fields”, Applied Optics, 10 January 2014, Vol.53, No.2, pp.237-243. (SCI)

1.Lei Huang*, Qiao Xue, Ping Yan, Mali Gong, Tenghao Li, Zexin Feng, and Xingkun Ma, “A thermo-field bimetal deformable mirror for wavefront correction in high power lasers”, Laser Physics Letters, January 2014, Vol.11, No.1. (SCI)

2013

14.Tenghao Li, Lei Huang*, Zexin Feng, Yuntao Qiu, Qiao Xue, Xingkun Ma, and Mali Gong, “Comparison of surface shape control algorithms for deformable mirror”, in Imaging and Applied Optics, OSA Technical Digest (online) (Optical Society of America, 2013), paper JTu4A.9.

13.Hailong Hong, Qiang Liu*, Lei Huang, and Mali Gong, “Numerical and experimental results of wavefront aberration caused in a high power laser amplifier”, Laser Physics Letters, February 2013, Vol.10, No.2. (SCI)

12.Hailong Hong, Qiang Liu*, Lei Huang, and Mali Gong, “Improvement and formation of UV-induced damage on LBO crystal surface during long-term high-power third-harmonic generation”, Optics Express, 25 March 2013, Vol.21, No.6, pp.7285-7293. (SCI)

11.Qiang Liu*, Hailong Hong, Xing Fu, Zhan Sui, Lei Huang, and Mali Gong, “Optimal design of ultrahigh-energy laser amplifier chain with high storage energy extraction”, Applied Optics, November 2013, Vol.52, No.33, pp.7942-7949. (SCI)

10.Qiao Xue,iao Xue, Lei Huang*, Ping Yan, Mali Gong, Zexin Feng, Yuntao Qiu, Tenghao Li, and Guofan Jin, “Research on the particular temperature-induced surface shape of a National Ignition Facility deformable mirror”, Applied Optics, 10 January 2013, Vol.52, No.2, pp.280-287. (SCI)

9.Mali Gong, Yuntao Qiu, Lei Huang*, Qiang Liu, Ping Yan, and Haitao Zhang, “Beam quality improvement by joint compensation of amplitude and phase”, Optics Letters, 1 April 2013, Vol.38, No.7, pp.1101-1103. (SCI)

8.Qiao Xue, Lei Huang*, Ping Yan, Mali Gong, Yuntao Qiu, Tenghao Li, Zexin Feng, and Guofan Jin, “Structure and closed-loop control of a novel compact deformable mirror for wavefront correction in a high power laser system”, Laser Physics Letters, April 2013, Vol.10, No.4, pp.045301 (7 pp.). (SCI)

7.Xingkun Ma, Lei Huang*, Mali Gong, Qiao Xue, Zexin Feng, Ping Yan, and Qiang Liu, “Orientation dependent wavefront correction system under grazing incidence”, Optics Express, 9 September 2013, Vol.21, No.18, pp.20497-20505. (SCI)

6.Zexin Feng, Lei Huang, Mali Gong*, and Guofan Jin, “Beam shaping system design using double freeform optical surfaces”, Optics Express, 17 June 2013, Vol.21, No.12, pp.14728-14735. (SCI)

5.Xingkun Ma, Lei Huang, Mali Gong*, Qiang Liu, Haitao Zhang, and Ping Yan, “Development of resonator analysis applied in hybrid slab laser with consideration of optical gain and thermal lens effect”, Applied Optics, 10 July 2013, Vol.52, No.20, pp.4858-4863. (SCI)

4.Qiao Xue, Lei Huang*, Ping Yan, and Mali Gong, “An optimized amplitude-weighting wavefront correction algorithm in laser systems”, Laser Physics, September 2013, Vol.23, No.9. (SCI)

3.Tenghao Li, Lei Huang*, Yuntao Qiu, Qiao Xue, and Mali Gong, “Flexible high-resolution wavefront sensor using a double-frequency two-dimensional acousto-optic modulator”, Optical Engineering, March 2013, Vol.52, No.3. (SCI)

2.Yuntao Qiu, Mali Gong, Lei Huang*, Qiang Liu, Ping Yan, Haitao Zhang, and Tenghao Li, “The beam quality of a truncated Gaussian beam with aberrations”, Laser Physics Letters, May 2013, Vol.10, No.5, pp.055001 (4 pp.). (SCI)

1.Zexin Feng, Lei Huang, Guofan Jin, and Mali Gong*, “Designing double freeform optical surfaces for controlling both irradiance and wavefront”, Optics Express, 18 November 2013, Vol.21, No.23, pp.28693-28701. (SCI)

2012

8.(Inivited Talk) “Development of High Power High Efficient UV Laser”, Chengdu, Sichuan, China, May 2012.

7.(Inivited Talk) “Microchip Laser Technology and Application”, Sichuan University, Chengdu, Sichuan, China, October 2012.

6.(Inivited Paper) Lei Huang*, Mali Gong, and Yuntao Qiu, “Beam quality improvement using joint compensation of amplitude and phase”, the 20th Chinese Laser Conference, the Chinese Optical Society, October 2012, Chengdu Sichuan, 12Z3-51.

5.Mali Gong, Yuntao Qiu, Qiang Liu, Lei Huang, Ping Yan, and Haitao Zhang, “Beam quality improvement by amplitude gain control in power amplifier system”, Laser Physics Letters, 2012, Vol.9, No.12, pp.838-843. (SCI)

4.Hailong Hong, Qiang Liu*, Lei Huang, and Mali Gong, “High-Beam-Quality All-Solid-State 355 nm Ultraviolet Pulsed Laser Based on a Master-Oscillator Power-Amplifier System Pumped at 888 nm”, Applied Physics Express, September 2012, Vol.5, No.9. (SCI)

3.Hailong Hong, Lei Huang, Qiang Liu, Ping Yan, and Mali Gong*, “Compact high-power, TEM00 acousto-optics Q-switched Nd:YVO4 oscillator pumped at 888 nm”, Applied Optics, 20 January 2012, Vol.51, No.3, pp.323-327. (SCI)

2.Yuntao Qiu, Lei Huang, Mali Gong*, Qiang Liu, Ping Yan, and Haitao Zhang, “Method to evaluate beam quality of Gaussian beams with aberrations”, Applied Optics, 20 September 2012, Vol.51, No.27, pp.6539-654. (SCI)

1.Tenghao Li, Mali Gong, Lei Huang*, Yuntao Qiu, and Qiao Xue, “Weighted Fried reconstructor and spatial-frequency response optimization of Shack-Hartmann wavefront sensing”, Applied Optics, 10 October 2012, Vol.51, No.29, pp.7115-7123. (SCI)

2011

4.(Inivited Talk) “Research on the Production Technology of 14W Industrial UV Laser”, Hitachi Via Mechanics, Ebina City, Japan, October 2010-January 2011.

3.(Inivited Paper) Lei Huang* and Mali Gong, “Development of High Density Deformable mirror for High Precision Wavefront Aberration Correction”, 1st Cross-Strait Tsinghua Optics and Photonics Conference, March 2011, Taiwan, Paper Th4-01.

2.Jianwei He*, Ping Yan, Qiang Liu, Lei Huang, Haitao Zhang, and Mali Gong, “30 W output of short pulse duration nanosecond green laser generated by a hybrid fiber-bulk MOPA system”, Laser Physics, April 2011, Vol.21, No.4, pp.708-711. (SCI)

1.Chenghua Wen, Lei Huang, Haitao Zhang, Yuntao Qiu, and Mali Gong*, “A method to restore 3-D surface of large area and low resolution interferogram”, Laser Technology, March 2011, Vol.35, No.2, pp.214-217.

2010

4.Yunxiang Wang*, Mali Gong, and Lei Huang, “High-Pulse-Stability Double-End Continuous-Grown YVO4/Nd:YVO4/YVO4 Acousto-Optically Q-Switched Laser at High Repetition Rates”, Laser Physics, June 2010, Vol.20, No.6, pp.1316-1319. (SCI)

3.Yunyi Sun*, Haitao Zhang, Qiang Liu, Lei Huang, Yunxiang Wang, and Mali Gong, “High pulse repetition frequency all-solid-state 1053 nm Nd:YLF laser”, Laser Physics Letters, October 2010, Vol.7, No.10, pp.722-725. (SCI)

2.Jianhui Liu, Qiang Liu*, Lei Huang, and Mali Gong, “High energy eye-safe and mid-infrared optical parametric oscillator”, Laser Physics Letters, December 2010, Vol.7, No.12, pp.853-856. (SCI)

1.Lei Huang*, Mali Gong, Qiang Liu, Ping Yan, and Haitao Zhang, “A novel prism beam-shaping laser diode bar end-pumped TEM00 mode Nd:YVO4 laser”, Laser Physics, Nov 2010, Vol.20, No.11, pp.1949-1953. (SCI)

2009

6.Mali Gong*, Shengli Wang, Qiang Liu, Lei Huang, Song Gao, and Haitao Zhang, “Analysis of thermal focal length in LD corner-pumped Nd：YAG/YAG composite slab lasers”, Laser Technology, 25 August 2009, Vol.33, No.4, pp.337-339, 343.

5.Qirong Xiao*, Ning Tian, Lei Huang, Dongsheng Wang, and Mali Gong, “Transmission characteristics measurement system of fiber laser devices in high power density”, Laser Technology, 25 October 2009, Vol.33, No.5, pp.459-461, 465.

4.Yunxiang Wang*, Mali Gong, Ping Yan, Lei Huang, and Dan Li, “Stable polarization short pulse passively Q-switched monolithic microchip laser with [110] cut Cr4+:YAG”, Laser Physics Letters, November 2009, Vol.6, No.11, pp.788-790. (SCI)

3.Lei Huang*, Mali Gong, Liang Ke, and Jianhui Liu, “A Compact High Efficient Diode-Double-Passing-Pumped Mid-IR Tm:YLF Laser at Room Temperature”, Laser Physics, July 2009, Vol.19, No.7, pp.1395-1398. (SCI)

2.Lei Huang*, Mali Gong, Ping Yan, and Qiang Liu, “A Stable 10 kHz–1.3 MHz High Repetition Rate Continuously Controllable AO Q-switched Nd:YVO4 Laser”, Laser Physics, July 2009, Vol.19, No.7, pp.1407–1409. (SCI)

1.Yunhuo Huang, Lei Huang, Haitao Zhang, Qiang Liu, Ping Yan, and Mali Gong*, “Thermal effect in pump end of fiber laser with water-jet guided pump”, Laser Technology, 25 June 2009, Vol.33, No.3, pp.225-227.

2008

13.Chengqiang Lu*, Mali Gong, Qiang Liu, Lei Huang, and Fahong He, “16.4W laser output at 1.34um with twin Nd:YVO4 crystals and double-end-pumping structure”, Laser Physics Letters, August 2008, Vol.5, No.1, pp.21. (SCI)

12.Xingpeng Yan*, Qiang Liu, Xing Fu, Yunxiang Wang, Lei Huang, Dongsheng Wang, and Mali Gong, “A 108 W, 500 kHz Q-switching Nd:YVO4 laser with the MOPA configuration”, Optics Express, 3 March 2008, Vol.16, No.5, pp.3356-3361. (SCI)

11.Xingpeng Yan*, Qiang Liu, Lei Huang, Yunxiang Wang, Xue Huang, Dongsheng Wang, and Mali Gong, “A high efficient one-end-pumped TEM00 laser with optimal pump mode”, Laser Physics Letters, 2008, Vol.5, No.3, pp.185-188. (SCI)

10.Mali Gong, Qi Wang*, Lei Huang, and Yunxiang Wang, “Compact TEM00 Nd:YVO4 slab laser end pumped by an LD bar”, Laser Physics, July 2008, Vol.18, No.7, pp.827-830. (SCI)

9.Mali Gong*, Qi Wang, Lei Huang, Dan Lu, and Qiang Liu, “Efficient multi-folded Nd:YVO4 slab amplifier”, Optics Express, 3 March 2008, Vol.16, No.5, pp.3349-3455. (SCI)

8.Mali Gong*, Haitao Zhang, Hongxiang Kang, Dongsheng Wang, Lei Huang, Ping Yan, and Qiang Liu, “A chamfered-edge-pumped planar waveguide solid-state laser”, Laser Physics Letters, July 2008, Vol.5, No.7, pp.518-521. (SCI)

7.Hongxiang Kang*, Haitao Zhang, Dongsheng Wang, Lei Huang, Ping Yan, Qiang Liu, and Mali Gong, “A diode side-pumped YAG/Nd : YAG/YAG composite crystal laser”, Laser Physics, August 2008, Vol.18, No.8, pp.947-950. (SCI)

6.Fahong He*, Lei Huang, Mali Gong, Qiang Liu, and Qi Wang, “Optimization of grazing-incidence angle in high repetition rate acousto-optical Q-switched grazing-incidence lasers”, Laser Technology, August 2008, Vol.32, No.4, pp.380-382.

5.Mali Gong, Lei Huang, Yunhuo Huang*, Haitao Zhang, Xingpeng Yan, and Ping Yan, “A configuration of the water-jet guided pump for the fiber laser”, Laser Physics Letters, October 2008, Vol.5, No.10, pp.584-587. (SCI)

4.Xue Huang*, Lei Huang, and Mali Gong, “Q-switched operation with Fox-Smith-Michelson laser cavity”, Laser Physics Letters, 2008, Vol.5, No.3, pp.189-192. (SCI)

3.Cong Yin*, Lei Huang, Fahong He, and Mali Gong, “Thermal analysis of a novel compact packaged passively cooled laser diode array”, IEEE Transactions on Components and Packaging Technologies, September 2008, Vol.31, No.3, pp.642-649. (SCI)

2.Yunxiang Wang*, Lei Huang, Haitao Zhang, Xingpeng Yan, Qiang Liu, and Mali Gong, “A fundamental mode miniature acousto-optically Q-switched Nd : YVO4 laser with short pulse width at high repetition rates”, Laser Physics Letters, April 2008, Vol.5, No.4, pp.286-290. (SCI)

1.Xingpeng Yan, Lei Huang*, Qiang Liu, Fahong He, Xing Fu, Dongsheng Wang, and Mali Gong, “2 MHz AO Q-switched TEM(00) grazing incidence laser with 3 at.% neodymium doped Nd:YVO4”, IEEE Journal of Quantum Electronics, December 2008, Vol.44, No.12, pp.1164-1169. (SCI)

2007

12.Chengqiang Lu*, Mali Gong, Qiang Liu, Lei Huang, and Fahong He, “16.4W laser output at 1.34um with twin Nd:YVO4 crystals and double-end-pumping structure”, Laser Physics Letters, August 2008, Vol.5, No.1, pp.21. (SCI)

11.Jin Zhang*, Lei Huang, Dongsheng Wang, Cong Yin, and Mali Gong, “Study on characteristics of output beam of combined optical diode lasers”, Laser Technology, 25 June 2007, Vol.31, No.3, pp.228-231, 241.

10.Dan Lu*, Lei Huang, Qi Wang, Qiang Liu, and Mali Gong, “High-efficiency multipass Nd:YVO4 laser amplifier”, Optical Technique, 2007, Vol.33, No.4, pp.624-625, 628.

9.Dan Lu*, Lei Huang, Qi Wang, Qiang Liu, and Mali Gong, “Laser diode pumped Nd:YVO4 laser in master oscillator and power amplifier structure”, Chinese Journal of Lasers,10 October 2007, Vol.34, No.10, pp.1338-1342.

8.Lei Huang*, Mali Gong, Ping Yan, Qiang Liu, and Chen Li, “Experimental Study on Pumping Characteristics of High Repetition Frequency High Peak Power End-pumped Nd:YAG Bonded Microchip Laser”, Journal of Optical Communications, 2007, Vol.28, pp.183-188.

7.64. for multi-axis lens actuator in optical disc system”, Sensors and Actuators A, 15 March 2007, Vol.134, No.2, pp.399-404. (SCI)

6.Lei Huang*, Mali Gong, Ping Yan, and Qiang Liu, “Repetition rate continuously controllable passively Q-switched Nd:YAG bonded microchip laser”, Laser Physics Letters, August 2007, Vol.4, No.8, pp.572-575. (SCI)

5.Yunxiang Wang*, Lei Huang, Mali Gong, Haitao Zhang, and Ming Lei, “4.5-ns pulse generation at a 500-kHz repetition rate from a short-cavity acoustooptically Q-switched Nd:YVO4 laser”, Laser Physics, September 2007, Vol.17, No.10, pp.1199-1203. (SCI)

4.61. Cong Yin*, Lei Huang, Fahong He, and Mali Gong, “Thermal Performance of Laser Diode Array under Constant Convective Heat Transfer Boundary Condition”, Chinese Physics Letters, July 2007,Vol.24, No.7, pp.1934-1937. (SCI)

3.Yunxiang Wang*, Lei Huang, Mali Gong, Haitao Zhang, Ming Lei, and Fahong He, “1 MHz repetition rate single-frequency gain-switched Nd:YAG microchip laser”, Laser Physics Letters, August 2007, Vol.4, No.8, pp.580-583. (SCI)

2.Cong Yin*, Lei Huang, Mali Gong, Ping Yan, Qiang Liu, and Fahong He, “A novel compact side-pumped bonded slab microchip laser”, Laser Physics Letters, August 2007, Vol.4, No.8, pp.584-587. (SCI)

1.Fahong He*, Lei Huang*, Mali Gong, and Qiang Liu, “Stable acousto-optics Q-switched Nd:YVO4 laser at 500 kHz”, Laser Physics Letters, 2007, Vol.4, No.7, pp.511-514. (SCI)

2006

3.Yuanyuan Pan*, Ruizhen Cui, Gang Chen, Mali Gong, and Lei Huang, “Beam shaping technique for laser diode bars with prism group”, Laser Technology, 25 August 2006, Vol.30, No.4, pp.337-339, 343

2.Nanying He*, Weipu Jia, Mali Gong, and Lei Huang, “Design and mechanism analysis of a novel type compact single mirror laser scanner”, Sensors and Actuators A-Physical, 10 January 2006, Vol.125, No.2, pp.482-485. (SCI)

1.Jin Zhang*, Lei Huang, Dongsheng Wang, Cong Yin, and Mali Gong, “Matrix method of reflector alignment in optical combination semiconductor lasers”, Laser Technology, 2006, Vol.30, No.5, pp.548-551.

2004

8.Yu Meng*, Tao Wang, Lei Huang, and Mali Gong, “Optical Disk Array System with Parallel Multi-controllers”, Laser technology, 2004, Vol.28, No.2, pp.205-207.

7.Xin Yang*, Mali Gong, Lei Huang, and Haitao Zhang, “Research on RLL (4,13) run-length limited code”, Laser & Infrared, 2004, Vol.34, No.1, pp.56-58.

6.Xin Yang*, Mali Gong, Lei Huang, Haitao Zhang, and Ping Yan, “Research on RLL (4,18) run-length limited code”, Optical Technique, 2004, Vol.30, No.3, pp.277-279.

5.Xin Yang*, Mali Gong, Lei Huang, Haitao Zhang, and Ping Yan, “Progress in study on modulation for optical disc storage”, Laser & Infrared, 2004, Vol.34, No.3, pp.238-241.

4.Mali Gong*, Shanshan Zou, Gang Chen, Ping Yan, Qiang Liu, and Lei Huang, “Threshold studies of pulsed confocal unstable optical parametric oscillators”, Optics Express, 28 June 2004, Vol.12, No.13, pp.2932-2944. (SCI)

3.Xin Yang*, Mali Gong, Lei Huang, and Haitao Zhang, “Run-length-limited (4, 13) code for high density optical storage systems”, Japanese Journal of Applied Physics, July 2004, Vol.43, No.7A, pp.4202-4206. (SCI)

2.Xin Yang*, Mali Gong, Lei Huang, Ping Yan, and Haitao Zhang, “Performance of run-length limited (4,18) code for optical storage systems”, Optical and Quantum Electronics, September 2004, Vol.36, No.12, pp.1079-1088. (SCI)

1.Nanying He*, Weipu Jia, Dingwen Yu, Lei Huang, and Mali Gong, “A novel type of 3-axis lens actuator with tilt compensation for high-density optical disc system”, Sensors and Actuators A, 15 September 2004, Vol.115, No.1, pp.126-132. (SCI)

2003

暂无内容

2002

4.Jiwei Cheng*, Mali Gong, Xingzhan Liu, Weipu Jia, Ping Yan, and Lei Huang, “Comparison and Design of Two Different Deflection Angle Measurement System for a 2 DOF Laser Scanner”, Laser & Infrared, 25 August 2002, Vol.32, No.4, pp.237-239.

3.Lei Huang*, Mali Gong, and Weipu Jia, “Movement Interferences Analysis for Objective Lens Actuator in Optical Disc System”, Sensors and Actuators A: Physical, December 2002, Vol.102, No.1-2, pp.19-30. (SCI)

2.Lei Huang*, Mali Gong, Weipu Jia, Ping Yan, Ruizhen Cui, and Haitao Zhang, “Movement Dynamics Analysis for Optical Pickup Head Lens Actuator in Digital Versatile Disc System”, Chinese Physics, September 2002, Vol.11, No.9, pp.932-939. (SCI)

1.Lei Huang*, Mali Gong, Weipu Jia, Ping Yan, Ruizhen Cui, and Haitao Zhang, “Static Stability Analysis for a Novel Permanent Magnetic Suspension Laser Beam Scanner”, Japanese Journal of Applied Physics, March 2002, Vol.41, No.3A, pp.1343-1346. (SCI)

2001

2.Lei Huang*, Mali Gong, Weipu Jia, Ping Yan, Ruizhen Cui, and Haitao Zhang, “New Methods to Achieve High Sensitivity of Objective Lens Actuator in Optical Disc System”, Japanese Journal of Applied Physics, December 2001, Vol.40, No.12, pp.6874-6875. (SCI)

1.Lei Huang*, Mali Gong, and Weipu Jia, “Dual-axis driving and interference forces analysis for high sensitivity objective lens actuator”, IEEE Transactions on Consumer Electronics, November 2001, Vol.47, No.4, pp.809-816. (SCI)

黄磊教授

激光与光子技术研究所

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