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In order to obtain focal spot with high power and spot size comparable to wavelength scale, a novel approach to achieving the coherent combination of beam array by tightly focusing is proposed. The physical model of coherent beam combination of beam array via tightly focusing is built up by the use of the vector diffraction integral. Therefore the influences of beam configuration, polarization state, beam width, beam interval and numerical aperture of the tight focusing system on the characteristics of the combined beam are discussed in detail. The results indicate that the coherent combination effect of beam array with linear and circular polarization via tight focusing is the first best, and that with the radial polarization is the second best but that with the azimuthal polarization is the worst. The beam array of linear and circular polarization with rectangle configuration can be tightly focused onto center point, and the beam array with hexagon is also focused onto center point but with lower efficiency. In addition, by enlarging the beam width and the beam interval to a certain extent, the combination efficiency can be increased. By optimizing the beam configuration, beam width and interval, and selecting rational numerical aperture of the tightly focusing geometry, the focal spot with high energy concentration can be obtained with high beam quality and combination efficiency.
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Keywords:
- tight focusing /
- beam array /
- coherent combination /
- numerical aperture
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Fang X Y 2010 Ph. D. Dissertation (Harbin: Harbin Institute Of Technology) (in Chinese)
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[5] Zhang F, Yu H, Fang J, Zhang M, Chen S, Wang J, He A, Chen J 2016 Opt. Express 24 6656Google Scholar
[6] 陆云清, 呼斯楞, 陆懿, 许吉, 王瑾 2015 64 097301Google Scholar
Lu Y Q, Hu S L, Lu Y, Xu J, Wang J 2015 Acta Phys. Sin. 64 097301Google Scholar
[7] 王思聪, 李向平 2016 中国光学 9 185Google Scholar
Wang S C, Li X P 2016 Chin. Opt. 9 185Google Scholar
[8] 张洲 2016 博士学位论文 (合肥: 安徽大学)
Zhang Z 2016 Ph. D. Dissertation (Hefei: Anhui University) (in Chinese)
[9] 赵维, 唐芳, 邱丽荣, 刘大礼 2013 62 054201Google Scholar
Zhao W Q, Tang F, Qiu L R, Liu D L 2013 Acta Phys. Sin. 62 054201Google Scholar
[10] Byrnes S J, Lenef A, Aieta F, Capasso F 2016 Opt. Express 24 5110Google Scholar
[11] Shen W, Hu C, Li S, Hu X T 2017 Appl. Surf. Sci. 421 535Google Scholar
[12] Wolf E 1959 P. Roy. Soc. A Mat. 253 349
[13] Richards B, Wolf E 1959 P. Roy. Soc. A Mat. 253 358
[14] Moh K J, Yuan X C, Bu J, Burge R E, Gao B Z 2007 Appl. Opt. 46 7544Google Scholar
[15] 谭毅, 李新阳 2014 63 094202Google Scholar
Tan T, Li X Y 2014 Acta Phys. Sin. 63 094202Google Scholar
[16] Gilad M L, Uriel L 2008 Opt. Express 16 4567Google Scholar
[17] Uberna R, Bratcher A, Tiemann B G 2010 IEEE J. Quantum. Electron. 46 1191Google Scholar
[18] Liu Z J, Ma P F, Su R T, Tao R M, Ma Y X, Wang X L, Zhou P 2017 J. Opt. Soc. Am. B 34 A7Google Scholar
[19] Tian B, Pu J X 2011 Opt. Lett. 36 2014Google Scholar
[20] Cheng Z, Zhou Y Y, Xia M, Li W, Yang K C, Zhou Y F 2015 Opt. Laser Technol. 73 77Google Scholar
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偏振态 线偏振 左旋圆偏振 径向偏振 角向偏振 矩阵 $\left[ \begin{aligned} 1 \\ 0 \\ 0 \\ \end{aligned} \right]$ $\left[ \begin{aligned} { {1{\rm{i} } } }/{ {\sqrt 2 } } \\ {1}/{ {\sqrt 2 } } \\ 0\;\;\end{aligned} \;\right]$ $\left[ \begin{aligned} \cos \varphi \\ \sin\; \varphi \\ 0\;\;\;\end{aligned} \right]$ $\left[ \begin{aligned} - \sin \varphi \\ \cos \varphi \\ 0\;\;\;\;\end{aligned} \right]$ 表 2 矩形排布方式下, 圆偏振阵列光束的合成效率
Table 2. Combining efficiency of beam array with circular polarization under rectangle configuration.
束宽/ μm 80 100 120 γ = 2.2 63.5% 75.2% 88.4% γ = 2.6 70.0% 79.4% 89.5% 表 3 不同数值孔径和介质下, 阵列光束焦斑尺寸
Table 3. Focal-spot width of beam array with numerical apertures and refractive indices under rectangle configuration.
介质 空气 水 油 NA 0.75 0.80 0.85 0.90 0.95 0.95 0.95 阵列光束焦斑
半径/μm0.50 0.49 0.47 0.46 0.45 0.40 0.35 -
[1] 杨若夫, 杨平, 沈锋 2009 58 8297Google Scholar
Yang R F, Yang P, Shen F 2009 Acta Phys. Sin. 58 8297Google Scholar
[2] 范馨燕 2010 博士学位论文 (哈尔滨: 哈尔滨工业大学)
Fang X Y 2010 Ph. D. Dissertation (Harbin: Harbin Institute Of Technology) (in Chinese)
[3] Christensen S, Koski O 2007 Advanced Solid-State Photonics. Optical Society of America, Vancouver, Canada, January 28–31, 2007 WC1
[4] 刘作业, 李露, 胡碧涛 2012 激光技术 5 657Google Scholar
Liu Z Y, Li L, Hu B T 2012 Laser Tech. 5 657Google Scholar
[5] Zhang F, Yu H, Fang J, Zhang M, Chen S, Wang J, He A, Chen J 2016 Opt. Express 24 6656Google Scholar
[6] 陆云清, 呼斯楞, 陆懿, 许吉, 王瑾 2015 64 097301Google Scholar
Lu Y Q, Hu S L, Lu Y, Xu J, Wang J 2015 Acta Phys. Sin. 64 097301Google Scholar
[7] 王思聪, 李向平 2016 中国光学 9 185Google Scholar
Wang S C, Li X P 2016 Chin. Opt. 9 185Google Scholar
[8] 张洲 2016 博士学位论文 (合肥: 安徽大学)
Zhang Z 2016 Ph. D. Dissertation (Hefei: Anhui University) (in Chinese)
[9] 赵维, 唐芳, 邱丽荣, 刘大礼 2013 62 054201Google Scholar
Zhao W Q, Tang F, Qiu L R, Liu D L 2013 Acta Phys. Sin. 62 054201Google Scholar
[10] Byrnes S J, Lenef A, Aieta F, Capasso F 2016 Opt. Express 24 5110Google Scholar
[11] Shen W, Hu C, Li S, Hu X T 2017 Appl. Surf. Sci. 421 535Google Scholar
[12] Wolf E 1959 P. Roy. Soc. A Mat. 253 349
[13] Richards B, Wolf E 1959 P. Roy. Soc. A Mat. 253 358
[14] Moh K J, Yuan X C, Bu J, Burge R E, Gao B Z 2007 Appl. Opt. 46 7544Google Scholar
[15] 谭毅, 李新阳 2014 63 094202Google Scholar
Tan T, Li X Y 2014 Acta Phys. Sin. 63 094202Google Scholar
[16] Gilad M L, Uriel L 2008 Opt. Express 16 4567Google Scholar
[17] Uberna R, Bratcher A, Tiemann B G 2010 IEEE J. Quantum. Electron. 46 1191Google Scholar
[18] Liu Z J, Ma P F, Su R T, Tao R M, Ma Y X, Wang X L, Zhou P 2017 J. Opt. Soc. Am. B 34 A7Google Scholar
[19] Tian B, Pu J X 2011 Opt. Lett. 36 2014Google Scholar
[20] Cheng Z, Zhou Y Y, Xia M, Li W, Yang K C, Zhou Y F 2015 Opt. Laser Technol. 73 77Google Scholar
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