Advances in the Sub-diffraction Limited Light Modulation by Supercritical Lens（Invited）

Yiyin ZHENG; Fei QIN; Xiangping LI

doi:10.3788/gzxb20225105.0551310

Journals >Acta Photonica Sinica >Volume 51 >Issue 5 >Page 0551310 > Article

Acta Photonica Sinica
Vol. 51, Issue 5, 0551310 (2022)

Advances in the Sub-diffraction Limited Light Modulation by Supercritical Lens（Invited）

Yiyin ZHENG, Fei QIN^*, and Xiangping LI

Author Affiliations

Key Laboratory of Fiber Optic Sensing and Communication in Guangdong Province，Institute of Photonic Technology，Jinan University，Guangzhou 511443，China

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DOI: 10.3788/gzxb20225105.0551310 Cite this Article

Yiyin ZHENG, Fei QIN, Xiangping LI. Advances in the Sub-diffraction Limited Light Modulation by Supercritical Lens（Invited）[J]. Acta Photonica Sinica, 2022, 51(5): 0551310 Copy Citation Text

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$Schematic shown of the super-oscillation criterion. The focal spot size of planar diffractive lens could be divided into three regions by Rayleigh（black）and super-oscillation（white）criterions，including sub-resolved（orange）［28］，super-resolution（cyan）［26］and super-oscillation（dark blue）［18］. The insets are the field distributions of the focal spots for three typical diffractive lenses ［24］$

Fig. 1. Schematic shown of the super-oscillation criterion. The focal spot size of planar diffractive lens could be divided into three regions by Rayleigh（black）and super-oscillation（white）criterions，including sub-resolved（orange）^［28］，super-resolution（cyan）^［26］and super-oscillation（dark blue）^［18］. The insets are the field distributions of the focal spots for three typical diffractive lenses ^［24］

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$Shaping sub-diffraction limited optical needle by a binary amplitude type supercritical lens［25］$

Fig. 2. Shaping sub-diffraction limited optical needle by a binary amplitude type supercritical lens^［25］

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$Shaping sub-diffraction limited focal spot lattice by a planar supercritical lens array［46］$

Fig. 3. Shaping sub-diffraction limited focal spot lattice by a planar supercritical lens array^［46］

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$Atomically thin planar supercritical lens with broadband sub-diffraction limited focusing effect［47］$

Fig. 4. Atomically thin planar supercritical lens with broadband sub-diffraction limited focusing effect^［47］

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$Schematic of the sub-diffraction-limited focusing with high efficiency from multilevel phase supercritical lens ［46］$

Fig. 5. Schematic of the sub-diffraction-limited focusing with high efficiency from multilevel phase supercritical lens ^［46］

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Fig. 6. Anti-stokes microscopy platform based on SCLs for vibrational imaging^［48］

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Fig. 7. Label-free Super-resolution imaging by supercritical lens microscopy^［26］

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Fig. 8. Optical scheme for achieving super-resolved magnetization spot with supercritical focusing ^［51］

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Yiyin ZHENG, Fei QIN, Xiangping LI. Advances in the Sub-diffraction Limited Light Modulation by Supercritical Lens（Invited）[J]. Acta Photonica Sinica, 2022, 51(5): 0551310

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