«Previous Article|Table of Contents|Next Article»

《南京师大学报（自然科学版）》[ISSN:1001-4616/CN:32-1239/N]

Issue:

2014年03期

Page:

48-

Research Field:

物理学

Publishing date:

Info

Title:

Optical Super-Resolution Imaging Properties of MicroscaleSpherical Lenses with Different Sizes

Author(s):

Cao Lingling; Yao Ling; Ren Jie; Ye Yonghong

School of Physics and Technology,Nanjing Normal University,Nanjing 210023,China

Keywords:

microspheres; microscale lenses; imaging

PACS:

O439

DOI:

-

Abstract:

Two-dimensional hexagonal close-packed colloidal crystal samples are prepared by a self-assembly method.The image properties of silica microscale spherical lenses of different diameters 1.97 μm,3.35 μm,4.87 μm and 7.27 μm are studied.We found that the microscale lens can magnify the colloidal crystal samples and the image contrast is greatly improved when the microscale lenses are semi-immersed in ethanol.Our experimental results indicate that small size lenses can receive more high-frequency Fourier components of the object and the semi-immersed microscale lenses can also efficiently intercept more high frequency components.Moreover,the magnification of the microscale lenses is different for different Fourier components of the object.

References:

[1] Pendry J B.Negative refraction makes a perfect lens[J].Physical Review Letters,2000,85(18):3 966-3 969.
[2]Fang N,Lee H,Sun C,et al.Sub-diffraction-limited optical imaging with a silver superlens[J].Science,2005,308(5721):534-537.
[3]Zhang X,Liu Z.Superlenses to overcome the diffraction limit[J].Nature Materials,2008,7(6):435-441.
[4]Kawata S,Inouye Y,Verma P.Plasmonics for near-field nano-imaging and superlensing[J].Nature Photonics,2009,3(7):388-394.
[5]Hell S W,Schmidt R,Egner A.Diffraction-unlimited three-dimensional optical nanoscopy with opposing lenses[J].Nature Photonics,2009,3(7):381-387.
[6]Rho J,Ye Z,Xiong Y,et al.Spherical hyperlens for two-dimensional sub-diffractional imaging at visible frequencies[J].Nature Communications,2010,143(1):1-5.
[7]Van Putten E G,Akbulut D,Bertolotti J,et al.Scattering lens resolves sub-100 nm structures with visible light[J].Physical Review Letters,2011,106(19):193905-1-193905-4.
[8]Rogers E T F,Lindberg J,Roy T,et al.A super-oscillatory lens optical microscope for subwavelength imaging[J].Nature Materials,2012,11(5):432-435.
[9]Lu D,Liu Z.Hyperlenses and metalenses for far-field super-resolution imaging[J].Nature Communications,2012,1205(3):1-9
[10]Lemoult F,Fink M,Lerosey G.A polychromatic approach to far-field superlensing at visible wavelengths[J].Nature Communications,2012,889(3):1-8.
[11]Fletcher D A,Crozier K B,Quate C F,et al.Near-field infrared imaging with a microfabricated solid immersion lens[J].Applied Physics Letters,2000,77(14):2 109-2 111.
[12]Lee J Y,Hong B H,Kim W Y,et al.Near-field focusing and magnification through self-assembled nanoscale spherical lenses[J].Nature,2009,460(7254):498-501.
[13]Wang Z,Guo W,Li L,et al.Optical virtual imaging at 50 nm lateral resolution with a white-light nanoscope[J].Nature Communications,2011,218(2):1-6.
[14]Hao X,Kuang C,Liu X,et al.Microsphere based microscope with optical super-resolution capability[J].Applied Physics Letters,2011,99(20):203102-1-203102-3.
[15]Hao X,Kuang C,Li Y,et al.Hydrophilic microsphere based mesoscopic-lens microscope(MMM)[J].Optics Communications,2012,285(20):4 130-4 133.
[16]王淑莹,章海军,张冬仙.基于微球透镜的任选区高分辨光学显微成像新方法研究[J].物理学报,2013,62(3):34 207-034 207.
[17]Li L,Guo W,Yan Y,et al.Label-free super-resolution imaging of adenoviruses by submerged microsphere optical nanoscopy[J].Light:Science and Applications,2013,2(9):e104-1-e104-9.
[18]Ye R,Ye Y H,Ma H F,et al.Experimental far-field imaging properties of a～5-μm diameter spherical lens[J].Optics Letters,2013,38(11):1 829-1 831.
[19]Chen Z,Taflove A,Backman V.Photonic nanojet enhancement of backscattering of light by nanoparticles:a potential novel visible-light ultramicroscopy technique[J].Optics Express,2004,12(7):1 214-1 220.

Memo

Memo:

-

Common functions

Last Update: 2014-09-30