首页 > 师资队伍 > 博士生导师 > 正文

汪 莎

供稿:    责任编辑:李运国    时间:2020-07-02    阅读:

汪莎

研究员 博导

    专业:光学工程

    方向:激光器件、超快激光器、光场调控

    Email:shawang@scu.edu.cn

    电话:

    地址:四川大学 望江校区

    邮编:610065

学习和工作简历

2001-2005 电子科大光电工程学院 学士

2005-2007 浙江大学 直博

2007-2010 德国柏林工业大学 博士

2011-2011 美国Quantronix公司 激光工程师

2012-2014 美国Alcon公司 高级激光工程师

2015-2019 四川大学电子信息学院 副教授

2020- 四川大学电子信息学院 研究员

 

科研项目与获奖

负责国家级科研项目2项,省部级及市区级项目2

  1. 主持自然科学基金面上项目      离轴泵浦像散腔直接产生飞秒涡旋光的机理研究 2020-2023(项目负责人)

  2. 主持 国家自然科学基金青年项目“SESAM被动调Q皮秒激光脉冲时间抖动复合控制机理研究“2017-2019(项目负责人)

  3. 主持 四川省国际合作项目“新型超短脉冲激光振荡器技术合作研究”2016-2018(项目负责人)

  4. 主持 成都市国际合作项目“高稳定性微焦量级1微米飞秒激光器的关键技术研究”2016-2018(项目负责人)

 

发表30余篇SCI论文

  1. Wang, Sha, Zhang Shu-lin, Li Ping, Hao Mei-hui, Yang Huo-mu, Xie Jian, Feng Guo-ying, and Zhou Shou-huan, "Generation of wavelength- and OAM-tunable vortex beam at low threshold," Opt. Express, 2018, 26, 18164-18170 6 4

  2. Wang, Sha, Zhang Shu-lin, Yang Huo-mu, Xie Jian, Feng Guo-ying, and Zhou Shou-huan, Direct emission of chirality controllable femtosecond LG01 vortex beam”, Applied Physics Letters, 2018, 112, 201110 7 4

  3. Wang, ShaWang, Yan-biaoFeng, Guo-yingZhou, Shou-huan, Harmonically mode-locked Yb:CALGO laser pumped by a single-mode 1.2 w laser diode, Optics Express, 2018, 26(2), 1521.

  4. Wang, Yan-biao; Wang, Sha* ; Feng Guo-ying* ; Zhou Shou-huan, Laser diode-pumped low timing jitter saturable output coupler Q-switched microchip laser: simulations and experiments, 2017, Opt. Eng. 56(8) 086110

  5. Wang, Yan-biao., Wang, Sha*, Feng, Guo-ying*, Zhou, Shou-huan, Sesam combined kerr lens mode locked yb:calgo laser pumped by a 1.2 w single mode fiber coupled laser diode, Laser Physics Letters, 2017, 14(5), 055003.

  6. Wang, Yan-biao., Wang, Sha, Feng, Guo-ying, Zhou, Shou-huan, 2017, Rectangular pulsed LD pumped saturable output coupler (SOC) Q-switched microchip laser. SPIE LASE (pp.100820R).

  7. Wang, ShaWang, Yan-biaoFeng, Guo-yingZhou, Shou-huanGeneration of double-scale pulse in a LD pumped Yb:Phosphate solid state laser, Applied Optics2017, 56(4): 897-900

  8. Wang, Sha, Zhao, Zhigang, Kobayashi, Yohei, Wavelength-spacing controllable, dual-wavelength synchronously mode locked Er:fiber laser oscillator based on dual-branch nonlinear polarization rotation technique, Optics Express, 2016, 24(25): 28228-28238

  9. Wang, Sha, Wang, Yan-biaoFeng, Guo-yingZhou, Shou-huan. A low timing jitter picosecond microchip laser pumped by pulsed LD.?Optics Communications, 2016, 371, 72-75

  10. Wang, Sha Wang, Yan-biaoFeng, Guo-yingZhou, Shou-huanSESAMs structure design for GHz femtosecond lasersOptik -International Journal for Light and Electron Optics20161275):2647-2652

  11. Wang, ShaWang, Yan-BiaoFeng, Guo-Ying Zhou, Shou-HuanPump polarization insensitive and efficient laser-diode pumped Yb:KYW ultrafast oscillator.Applied Optics2016554):929-934

  12. Wang, Sha Wang, Yan-biaoYang, Xian-hengFeng, Guo-yingZhou, Shou-huanHigh-efficiency microchip laser with self-injection seedingApplied Optics20155435):10304-10308

  13. Wang, Sha Han, Jing-HuaWang, Yan-BiaoFeng, Guo-Ying Zhou, Shou-HuanRobust double Z-type cavity mode locked Yb:KYW ultrafast laserOptical Engineering20155412

  14. Wang, ShaFeng, Guo-yingZhou, Shou-huanSESAM fabrication errors and its influence on ultrafast laser cavity designJournal of Zhejiang University-SCIENCE A (Applied Physics & Engineering)2015164):314-323

  15. Sha Wang, Shu-Lin Zhang, Hong-chaoQiao, Ping Li, Mei-huiHao, Huo-Mu Yang, Jian Xie, Guo-Ying Feng, and Shou-huan Zhou, "Direct generation of vortex beams from a double-end polarized pumped Yb:KYW laser," Opt. Express 26, 26925-26932 (2018)

  16. Zhang S, Li P, Wang S*, et al. Ultrafast vortices generation at low pump power and shearing interferometer-based vortex topological detection[J]. Laser Physics Letters, 2019, 16(3): 035302.

  17. Zhang S, Li P, Wang S*, et al. Direct excitation of chirality controllable LG01 vortex beam in solid-state lasers by intracavity astigmatism manipulation[J]. Laser Physics Letters, 2019, 16(3): 035002.

  18. Zhang, S., Hao, M., Wang, S*., Feng, G*., & Zhou, S. (2019). Emission of stable picosecond flat-top beam from passively Q-switched microchip lasers. Optical Engineering, 58(10), 106105.

  19. Hao, M., Wang, S., Wang*, Y., Feng, G.*, & Zhou, S. (2019). Timing jitter effect in microchip laser and its reduction by backward reflection in fiber delay line. Optical Engineering, 58(5), 056115.

  20. Guo, L., Wang, S*., Feng, G*., & Zhou, S. (2018). Influence of filter shape and bandwidth on noise-like pulse generation in all-normal-dispersion fiber lasers. Optik, 172, 531-539.

  21. Wang, XinWang, Sha *Rhee, HanjoEichler, Hans JoachimMeister, (*) StefanLD end pumped mode locked and cavity dumped Nd:YAP laser at 1.34 μmOptics Communications201128412):3014-3017,影响影子1.4803

  22. Wang, Sha Wang, XinRhee, HanjoMeister, StefanEichler, Hans JoachimChen, JunPulsed Nd:YAP laser at 1432 nm pumped with high power laser diodeOptics Communications201028314):2881-2884,影响影子1.4803

  23. Wang, ShaRhee, HanjoWang, XinEichler, Hans JoachimMeister, StefanRiesbeck, ThomasChen, JunLD end pumped, actively mode locked and passively Q-switched Nd:YAP laser at 1341Optics Communications20102834):570-573,影响影子1.4803

  24. Wang, ShaEichler, Hans JoachimWang, XinKallmeyer, FrankGe, Jian-hongRiesbeck, ThomasChen, JunDiode end pumped Nd:YAG laser at 946 nm with high pulse energy limited by thermal lensingApplied Physics B: Lasers and Optics2009954):721-730,影响影子1.7853

  25. Wang, Sha Wang, XinKallmeyer, FrankChen, JunEichler, Hans JoachimModel of pulsed Nd:GSAG laser at 942 nm conside785ring rate equations with cavity structureApplied Physics B: Lasers and Optics2008921):43-48,影响影子1.7853

  26. ,陈军,童立新,高清松,刘崇,唐淳,熔石英棒-光纤构成的新型复合相位共轭镜的实验和理论研究,物理学报,2008573):1719-1724,影响影子0.6774

  27. Wang, Sha Chen, JunTong, LixinGao, QingsongLiu, Chong Tang, ChunPhase conjugating mirror combining a fused silica rod and a fiberOptics Letters20073218):2686-2688,影响影子3.0402

  28. 汪莎,刘崇,陈军,胡淼,陈哲敏,葛剑虹,固体激光器腔型结构对热透镜焦距测量的影响,中国激光,20073410):1431-1435EI收录

  29. 汪莎, 陈军, 葛剑虹,. 工作在1341nmLD纵向抽运腔倒空锁模NdYAP激光器[J]. 中国激光, 2010(8):1925-1928EI收录

  30. 汪莎,陈军, 刘崇,. 纵向抽运准三能级YbYAG激光器的理论模型及实验研究[J]. 中国激光, 2009, 36(1):23-27EI收录

  31. 汪莎, 陈军, 童立新,. 熔石英棒和光纤构成的新型复合型相位共轭镜[J]. 中国激光, 2007, 34(9):1212-1216EI收录

  32. 汪莎, 童立新, 高清松,. 应用熔石英棒相位共轭镜的LD泵浦激光MOPA系统[J]. 强激光与粒子束, 2007, 19(8):1233-1236EI收录