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[Crossref]

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[Crossref]

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[Crossref]

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[Crossref]

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[Crossref]

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[Crossref]

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[Crossref]

H. Chen, Z. Zheng, B. F. Zhang, J. Ding, and H. T. Wang, “Polarization structuring of focused field through polarization-only modulation of incident beam,” Opt. Lett. 35, 2825–2827 (2010).

[Crossref]

W. Chen and Q. Zhan, “Diffraction limited focusing with controllable arbitrary three-dimensional polarization,” J. Opt. 12, 045707 (2010).

[Crossref]

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[Crossref]

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[Crossref]

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[Crossref]

H. Chen, Z. Zheng, B. F. Zhang, J. Ding, and H. T. Wang, “Polarization structuring of focused field through polarization-only modulation of incident beam,” Opt. Lett. 35, 2825–2827 (2010).

[Crossref]

D. G. Grier, “A revolution in optical manipulation,” Nature 424, 810–816 (2003).

[Crossref]

M. Gu, Advanced Optical Imaging Theory (Springer, 2000).

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[Crossref]

J. Lin, O. G. Rodríguez-Herrera, F. Kenny, D. Lara, and J. C. Dainty, “Fast vectorial calculation of the volumetric focused field distribution by using a three-dimensional Fourier transform,” Opt. Express 20, 1060–1069 (2012).

[Crossref]

J. Lin, X.-C. Yuan, S. S. Kou, C. J. R. Sheppard, O. G. Rodríguez-Herrera, and J. C. Dainty, “Direct calculation of a three-dimensional diffracted field,” Opt. Lett. 36, 1341–1343 (2011).

[Crossref]

B. R. Boruah and M. A. A. Neil, “Focal field computation of an arbitrarily polarized beam using fast Fourier transforms,” Opt. Commun. 282, 4660–4667 (2009).

[Crossref]

H. P. Urbach and S. F. Pereira, “Field in focus with a maximum longitudinal electric component,” Phys. Rev. Lett. 100, 123904 (2008).

[Crossref]

K. A. Serrels, E. Ramsay, R. J. Warburton, and D. T. Reid, “Nanoscale optical microscopy in the vectorial focusing regime,” Nat. Photonics 2, 311–314 (2008).

[Crossref]

K. A. Serrels, E. Ramsay, R. J. Warburton, and D. T. Reid, “Nanoscale optical microscopy in the vectorial focusing regime,” Nat. Photonics 2, 311–314 (2008).

[Crossref]

J. Lin, O. G. Rodríguez-Herrera, F. Kenny, D. Lara, and J. C. Dainty, “Fast vectorial calculation of the volumetric focused field distribution by using a three-dimensional Fourier transform,” Opt. Express 20, 1060–1069 (2012).

[Crossref]

J. Lin, X.-C. Yuan, S. S. Kou, C. J. R. Sheppard, O. G. Rodríguez-Herrera, and J. C. Dainty, “Direct calculation of a three-dimensional diffracted field,” Opt. Lett. 36, 1341–1343 (2011).

[Crossref]

K. A. Serrels, E. Ramsay, R. J. Warburton, and D. T. Reid, “Nanoscale optical microscopy in the vectorial focusing regime,” Nat. Photonics 2, 311–314 (2008).

[Crossref]

F. M. Dickey, S. C. Holswade, and D. L. Shealy, Laser Beam Shaping Applications (Taylor & Francis, 2006).

J. Lin, X.-C. Yuan, S. S. Kou, C. J. R. Sheppard, O. G. Rodríguez-Herrera, and J. C. Dainty, “Direct calculation of a three-dimensional diffracted field,” Opt. Lett. 36, 1341–1343 (2011).

[Crossref]

W. T. Tang, E. Y. S. Yew, and C. J. R. Sheppard, “Polarization conversion in confocal microscopy with radially polarized illumination,” Opt. Lett. 34, 2147–2149 (2009).

[Crossref]

A. F. Abouraddy and K. C. Toussaint, “Three-dimensional polarization control in microscopy,” Phys. Rev. Lett. 96, 153901 (2006).

[Crossref]

H. P. Urbach and S. F. Pereira, “Field in focus with a maximum longitudinal electric component,” Phys. Rev. Lett. 100, 123904 (2008).

[Crossref]

I. Iglesias and B. Vohnsen, “Polarization structuring for focal volume shaping in high-resolution microscopy,” Opt. Commun. 271, 40–47 (2007).

[Crossref]

H. Chen, J. Hao, B. F. Zhang, J. Xu, J. Ding, and H. T. Wang, “Generation of vector beam with space-variant distribution of both polarization and phase,” Opt. Lett. 36, 3179–3181 (2011).

[Crossref]

H. Chen, Z. Zheng, B. F. Zhang, J. Ding, and H. T. Wang, “Polarization structuring of focused field through polarization-only modulation of incident beam,” Opt. Lett. 35, 2825–2827 (2010).

[Crossref]

K. A. Serrels, E. Ramsay, R. J. Warburton, and D. T. Reid, “Nanoscale optical microscopy in the vectorial focusing regime,” Nat. Photonics 2, 311–314 (2008).

[Crossref]

H. Chen, J. Hao, B. F. Zhang, J. Xu, J. Ding, and H. T. Wang, “Generation of vector beam with space-variant distribution of both polarization and phase,” Opt. Lett. 36, 3179–3181 (2011).

[Crossref]

H. Chen, Z. Zheng, B. F. Zhang, J. Ding, and H. T. Wang, “Polarization structuring of focused field through polarization-only modulation of incident beam,” Opt. Lett. 35, 2825–2827 (2010).

[Crossref]

W. Chen and Q. Zhan, “Diffraction limited focusing with controllable arbitrary three-dimensional polarization,” J. Opt. 12, 045707 (2010).

[Crossref]

K. A. Serrels, E. Ramsay, R. J. Warburton, and D. T. Reid, “Nanoscale optical microscopy in the vectorial focusing regime,” Nat. Photonics 2, 311–314 (2008).

[Crossref]

D. G. Grier, “A revolution in optical manipulation,” Nature 424, 810–816 (2003).

[Crossref]

B. R. Boruah and M. A. A. Neil, “Focal field computation of an arbitrarily polarized beam using fast Fourier transforms,” Opt. Commun. 282, 4660–4667 (2009).

[Crossref]

I. Iglesias and B. Vohnsen, “Polarization structuring for focal volume shaping in high-resolution microscopy,” Opt. Commun. 271, 40–47 (2007).

[Crossref]

O. Angelsky, A. Bekshaev, P. Maksimyak, A. Maksimyak, S. Hanson, and C. Zenkova, “Orbital rotation without orbital angular momentum: mechanical action of the spin part of the internal energy flow in light beams,” Opt. Express 20, 3563–3571 (2012).

[Crossref]

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[Crossref]

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[Crossref]

J. Lin, O. G. Rodríguez-Herrera, F. Kenny, D. Lara, and J. C. Dainty, “Fast vectorial calculation of the volumetric focused field distribution by using a three-dimensional Fourier transform,” Opt. Express 20, 1060–1069 (2012).

[Crossref]

H. Chen, Z. Zheng, B. F. Zhang, J. Ding, and H. T. Wang, “Polarization structuring of focused field through polarization-only modulation of incident beam,” Opt. Lett. 35, 2825–2827 (2010).

[Crossref]

O. Masihzadeh, P. Schlup, and R. A. Bartels, “Enhanced spatial resolution in third-harmonic microscopy through polarization switching,” Opt. Lett. 34, 1240–1242 (2009).

[Crossref]

W. T. Tang, E. Y. S. Yew, and C. J. R. Sheppard, “Polarization conversion in confocal microscopy with radially polarized illumination,” Opt. Lett. 34, 2147–2149 (2009).

[Crossref]

K. Hu, Z. Chenand, and J. Pu, “Generation of super-length optical needle by focusing hybridly polarized vector beams through a dielectric interface,” Opt. Lett. 37, 3303–3305 (2012).

[Crossref]

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[Crossref]

J. Lin, X.-C. Yuan, S. S. Kou, C. J. R. Sheppard, O. G. Rodríguez-Herrera, and J. C. Dainty, “Direct calculation of a three-dimensional diffracted field,” Opt. Lett. 36, 1341–1343 (2011).

[Crossref]

H. Chen, J. Hao, B. F. Zhang, J. Xu, J. Ding, and H. T. Wang, “Generation of vector beam with space-variant distribution of both polarization and phase,” Opt. Lett. 36, 3179–3181 (2011).

[Crossref]

H. P. Urbach and S. F. Pereira, “Field in focus with a maximum longitudinal electric component,” Phys. Rev. Lett. 100, 123904 (2008).

[Crossref]

A. F. Abouraddy and K. C. Toussaint, “Three-dimensional polarization control in microscopy,” Phys. Rev. Lett. 96, 153901 (2006).

[Crossref]

F. M. Dickey, S. C. Holswade, and D. L. Shealy, Laser Beam Shaping Applications (Taylor & Francis, 2006).

M. Gu, Advanced Optical Imaging Theory (Springer, 2000).