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    Journals >Chinese Optics Letters >Volume 6 >Issue 10 >Page 785 > Article
    • Chinese Optics Letters
    • Vol. 6, Issue 10, 785 (2008)
    Generation of sub-wavelength and super-resolution longitudinally polarized non-diffraction beam using lens axicon
    K. B.* and P. M.
    Author Affiliations
  • Department of Physics, Periyar University, Salem 636011, India
    • show less
    DOI: 10.3788/COL20080610.0785 Cite this Article Set citation alerts
    K. B., P. M.. Generation of sub-wavelength and super-resolution longitudinally polarized non-diffraction beam using lens axicon[J]. Chinese Optics Letters, 2008, 6(10): 785 Copy Citation Text show less
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    CLP Journals

    [1] Igor Minin, Oleg Minin. 3D dif fractive lenses to overcome the 3D Abbe subwavelength dif fraction limit[J]. Chinese Optics Letters, 2014, 12(6): 060014

    [2] Cheng Kan, Tan Qiaofeng, Zhou Zhehai, Jin Guofan. Design of Three-Dimensional Superresolution Diffractive Optical Elements for Radially Polarized Beam[J]. Acta Optica Sinica, 2010, 30(11): 3295

    [3] Zhehai Zhou, Qiaofeng Tan, Guofan Jin. Focusing of high polarization order axially-symmetric polarized beams[J]. Chinese Optics Letters, 2009, 7(10): 938

    Data from CrossRef

    [1] Yikun Zha, Jingsong Wei, Fuxi Gan. Performance improvement of super-resolving pupil filters via combination with nonlinear saturable absorption films. Optics Communications, 293, 139(2013).

    [2] Yunbo Zhang, Aijun Zeng, Ying Wang, Huijie Huang. A method for measuring the base angle of axicon lens based on chromatic dispersion. Optics Communications, 346, 69(2015).

    [3] N. L. Kazanskiy, S. N. Khonina. Nonparaxial effects in lensacon optical systems. Optoelectronics, Instrumentation and Data Processing, 53, 484(2017).

    [4] Zhangfan Wei, Qiao Yuan, Xinghua Ma, Jingpei Hu, Aijun Zeng, Huijie Huang. Measurement of base angle of an axicon lens based on auto-collimation optical path. Optics Communications, 434, 23(2019).

    [5] Li Dan, Ren Zhijun, Deng Suyu. Virtual source for a Mathieu–Gauss beam. Journal of Optics, 19, 055608(2017).

    [6] Wu Qiong, Ren Zhi-Jun, Du Lin-Yue, Hu Hai-Hua, Gu Ying, Yang Zhao-Feng. Odd version Mathieu-Gaussian beam based on Green function. Acta Physica Sinica, 66, 204201(2017).

    [7] K. B. Rajesh, Z. Jaroszewicz, P. M. Anbarasan. Improvement of lens axicon’s performance for longitudinally polarized beam generation by adding a dedicated phase transmittance. Optics Express, 18, 26799(2010).

    [8] K.B. Rajesh, N. Veerabagu Suresh, P.M. Anbarasan, K. Gokulakrishnan, G. Mahadevan. Tight focusing of double ring shaped radially polarized beam with high NA lens axicon. Optics & Laser Technology, 43, 1037(2011).

    [9] Ping Lu, Damien Voyer, Arnaud Breard, Julien Huillery, Bruno Allard, Xuefang Lin-Shi, Xue-Song Yang. Design of TE-Polarized Bessel Antenna in Microwave Range Using Leaky-Wave Modes. IEEE Transactions on Antennas and Propagation, 66, 32(2018).

    [10] P. Suresh, C. Mariyal, K.B. Rajesh, T.V.S. Pillai. Polarization effect of cylindrical vector beam in high numerical aperture lens axicon systems. Optik, 124, 1632(2013).

    [11] K.B. Rajesh, Zbigniew Jaroszewicz, P.M. Anbarasan, T.V.S. Pillai, N. Veerabagu Suresh. Extending the depth of focus with high NA lens axicon. Optik, 122, 1619(2011).

    [12] V Ravi, P Suresh, K B Rajesh, Z Jaroszewicz, P M Anbarasan, T V S Pillai. Generation of sub-wavelength longitudinal magnetic probe using high numerical aperture lens axicon and binary phase plate. Journal of Optics, 14, 055704(2012).

    [13] Yanxiang Zhang, Mingkai Wang, Zibo Ning, Ensi Cao, Xiaofei Liu, Zhongquan Nie. Temporal effect on tight focusing, optical force and spin torque of high-order vector-vortex beams. Optics & Laser Technology, 149, 107844(2022).

    [14] P. Suresh, K. B. Rajesh, T.V.S. Pillai. Tight Focusing of Amplitude Modulated HyGG Type – II Beam using High NA Lens Axicon. International Conference on Fibre Optics and Photonics, MPo.19(2012).

    [15] P. Suresh. Creation of optical chain in the focal region of high NA lens of tightly focused higher order Gaussian beam. Journal of Optics, 46, 225(2017).

    [16] Zhongquan Nie, Guang Shi, Xueru Zhang, Yuxiao Wang, Yinglin Song. Generation of super-resolution longitudinally polarized beam with ultra-long depth of focus using radially polarized hollow Gaussian beam. Optics Communications, 331, 87(2014).

    [17] Svetlana N. Khonina, Andrey V. Ustinov, Alexey P. Porfirev. Dynamic focal shift and extending depth of focus based on the masking of the illuminating beam and using an adjustable axicon. Journal of the Optical Society of America A, 36, 1039(2019).

    [18] K. Prabakaran, K. B. Rajesh, T. V. S. Pillai, R. Chandrasekaran, Z. Jaroszewicz. Focal shift in radially polarized beam with high NA lens axicon by using radial cosine phase wavefront. Optical and Quantum Electronics, 45, 563(2013).

    [19] Léo Turquet, Xiaorun Zang, Joona-Pekko Kakko, Harri Lipsanen, Godofredo Bautista, Martti Kauranen. Demonstration of longitudinally polarized optical needles. Optics Express, 26, 27572(2018).

    [20] K. Lalithambigai, P. Suresh, V. Ravi, K. Prabakaran, Z. Jaroszewicz, K. B. Rajesh, P. M. Anbarasan, T. V. S. Pillai. Generation of sub wavelength super-long dark channel using high NA lens axicon. Optics Letters, 37, 999(2012).

    [21] Chandrasekaran R., Prabakaran K., Rajesh K.B., Mohamed Musthafa A., Ravi V.. Tight focusing properties of cylindrically polarized annular multi-Gaussian beam. Optik, 127, 7537(2016).

    [22] P. Suresh, C. Mariyal, K. B. Rajesh, T. V. S. Pillai, Z. Jaroszewicz. Generation of a strong uniform transversely polarized nondiffracting beam using a high-numerical-aperture lens axicon with a binary phase mask. Applied Optics, 52, 849(2013).

    [23] K. Lalithambigai, K. Leelavathi, P.M. Anbarasan, K.B. Rajesh. Generation of sub wavelength super long dark channel using complex phase filter. International Conference on Fibre Optics and Photonics, MPo.17(2012).

    [24] K. Prabakaran, R. Chandrasekaran, G. Mahadevan, Z. Jaroszewicz, K.B. Rajesh, T.V.S. Pillai. Tight focusing of generalized cylindrical vector beam with high NA lens axicon. Optics Communications, 295, 230(2013).

    [25] K. Prabakaran, K.B. Rajesh, T.V.S. Pillai, Z. Jaroszewicz. Focus shaping of tightly focused TEM11 mode cylindrically polarized Laguerre Gaussian beam by diffractive optical element. Optik, 124, 5039(2013).

    [26] R. Chandrasekeran, K. Prabakaran, K.B. Rajesh, T.V.S. Pillai, Z. Jaroszewicz. Tight Focusing of Cylindrical Vector Beam with High NA Lens axicon. International Conference on Fibre Optics and Photonics, MPo.12(2012).

    [27] K. Lalithambigai, P.M. Anbarasan, K.B. Rajesh. Generation of multiple focal holes by tightly focused azimuthally polarized double-ring-shaped beam with complex phase mask. Optik, 125, 2225(2014).

    [28] C. Mariyal, P. Suresh, K.B. Rajesh, T.V.S. Pillai. Tight focusing of partially coherent radially polarized beam with high NA lens axicon. Optik, 124, 4956(2013).

    [29] P. Suresh, C. Mariyal, K. Gokulakrishnan, K.B. Rajesh, T.V.S. Pillai. Tight focusing of circularly polarized beam over high NA lens axicon with a diffractive optical element. Optik, 124, 4389(2013).

    [30] K. Lalithambigai, P. M. Anbarasan, K. B. Rajesh. Formation of optical needle by high NA lens axicon with dedicated complex spiral phase mask. Optical and Quantum Electronics, 47, 2017(2015).

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    K. B., P. M.. Generation of sub-wavelength and super-resolution longitudinally polarized non-diffraction beam using lens axicon[J]. Chinese Optics Letters, 2008, 6(10): 785
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