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

Issue:

2017年02期

Page:

133-

Research Field:

·物理学·

Publishing date:

Info

Title:

Influence of Single Dielectric Layer on Microscale Spherical Lens Imaging

Author(s):

Du Bintao; Wang Tian; Guo Minglei; Xia Yang; Deng Yun; Ye Yonghong

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

Keywords:

super-resolution film; microscale lenses; imaging

PACS:

O439

DOI:

10.3969/j.issn.1001-4616.2017.02.022

Abstract:

Imaging by barium titanate glass(BTG)embedded in polydimethylsiloxane(PDMS)film is a common technique to achieve optical super-resolution now. We propose to deposit a dielectric layer between the microsphere lens and the object surface,and study the imaging properties with different SU-8 thicknesses. Our experimental results reveal that the field of view(FOV)increases from 10.8 μm to 13.2 μm when the film thickness increases from 0 to 270 nm. It is found that the SU-8 layer with a thickness around 160 nm can obviously increase the imaging FOV and contrast. Moreover,for different dielectric layers with the same film thickness 160 nm,the SU-8 layer can improve FOV while the TiO₂ layer cannot. We also found that the amount of light coupling into the dielectric layer decides the image quality. This phenomenon is explained by the destructive interference effect. Our findings can advance the understanding of the super-resolution imaging mechanisms in microscale lenses.

References:

[1] WANG Z,GUO W,LI L,et al. Optical virtual imaging at 50 nm lateral resolution with a white-light nanoscope[J]. Nature communication,2011,218(2):1-6.
[2]HAO X,KUANG C,LIU X,et al. Microsphere based microscope with optical super-resolution capability[J]. Applied physics letters. 2011,99:203102(1-3).
[3]DARAFSHEH A,WALSH G F,DAL NEGRO L,et al. Optical super-resolution by high-index liquid-immersed microspheres[J]. Applied physics letters,2012,101:141128(1-4).
[4]DARAFSHEH A,FIDDY M A,ASTRATOV V N. Super-resolution imaging by high-index microspheres immersed in a liquid[C]//JAWORSKI M,MARCINIAK M. International Conference on Transparent Optical Networks-ICTON. Coventry,England,2012,paper TU.A6.5.
[5]HAO X,KUANG C,LI Y,et al. Hydrophilic microsphere based mesoscopic-lens microscope(MMM)[J]. Optics communication,2012,285(20):4 130-4 133.
[6]DU B,YE Y,HOU J,et al. Sub-wavelength image stitching with removable microsphere-embedded thin film[J]. Applied physics a materials science and processing,2016,122(1):1-6.
[7]ASTRATOV V N,DARAFSHEH A. Methods and systems for super-resolution optical imaging using high-index of refraction microspheres and microcylinders[P]. US patent application 2014/0355108 Al published on 2014-12-04,related to U.S. Provisional application 61/656,710 field on 2010-06-07.
[8]庞辉,杜春蕾,邱琪,等. 介质微球超分辨成像薄膜[J]. 光子学报,2015,44(4):0426004(1-4).
[9]ALLEN K W,FARAHI N,LI Y,et al. Super-resolution imaging by arrays of high-index spheres embedded in transparent matrices[C]//IEEE Proc of Aerospace and Electronics Conference(NAECON). Dayton,June 24-27,2014.
[10]ALLEN K W. Waveguide,photodetector and imaging applications of microspherical photonics[D]. Charlotte:University of North Carolina,2014:98-122.
[11]ALLEN K W,FARAHI N,LI Y,et al. Super-resolution microscopy by movable thin-films with embedded microspheres:resolution analysis[J]. Annalen der physik,2015,527(7/8):513-522.
[12]DARAFSHEH A,GUARDIOLA C,PALOVCAK A,et al. Optical super-resolution imaging by high-index microspheres embedded in elastomers[J]. Optics letters,2015,40(1):5-8.
[13]WANG Z. Improvements in and Relating to Lenses. PCT/GB2014/052578[P]. 2014-8-22.
[14]GUO M,YE Y,HOU J,et al. Experimental far-field imaging properties of high refractive index microsphere lens[J]. Photonics research,2015,3(6):339-342.
[15]LEE S,LI L,WANG Z,et al. Immersed transparent microsphere magnifying sub-diffraction-limited objects[J]. Applied optics,2013,52(30):7 265-7 270.
[16]HAO X. LIU X,KUANG C,et al. Far-field super-resolution imaging using near-field illumination by micro-fiber[J]. Applied physics letters,2013,102(1):1-4.
[17]HAO X,KUANG C,. LI Y,et al. Evanescent-wave-induced frequency shift for optical superresolution imaging[J]. Optics letters,2013,38(14):2 455-2 458.
[18]HAO X,KUANG C,GU Z,Y,et al. From microscopy to nanoscopy via visible light[J]. Light-science and application,2013,10(e108):1-10.

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Last Update: 2017-06-30