Color digital holography using speckle illumination by means of a multi-mode fiber

被引:9
作者
Funamizu, Hideki [1 ]
Shimoma, Shohei [1 ]
Aizu, Yoshihisa [1 ]
机构
[1] Muroran Inst Technol, Div Mech Syst & Mat Engn, Muroran, Hokkaido 0508585, Japan
来源
OPTICS COMMUNICATIONS | 2014年 / 312卷
关键词
Digital holography; Multi-mode fiber; In-line holography; Color; INTENSITY MEASUREMENTS; OPTICAL FIBER; ZERO-ORDER; RECONSTRUCTION; IMAGE; INTERFEROMETRY; WAVELENGTH; MICROSCOPY; OBJECT; ERROR;
D O I
10.1016/j.optcom.2013.09.032
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
We present color digital holography using speckle illumination by means of a multi-mode fiber. In this technique, speckle fields emitted from the fiber are used as both a reference wave and a wavefront illuminating an object. For three wavelengths, the interference patterns of two coherent waves are recorded as digital holograms on a CCD camera. A speckle method is used for suppressing DC terms and reducing a twin image in an in-line color digital holography. The speckle fields are changed by vibrating the multi-mode fiber using a vibrator, and a number of holograms are acquired to average reconstructed images. The dependence of the averaged number of holograms on color quality of reconstructed images is evaluated by chromaticity coordinates and color differences in colorimetry. (C) 2013 The Authors. Published by Elsevier B.V. All rights reserved
引用
收藏
页码:245 / 251
页数:7
相关论文
共 50 条
[31]   Color lens-free imaging using multi-wavelength illumination based phase retrieval [J].
Marien, Jasper ;
Stahl, Richard ;
Lambrechts, Andy ;
van Hoof, Chris ;
Yurt, Abdulkadir .
OPTICS EXPRESS, 2020, 28 (22) :33002-33018
[32]   Reduction of speckle noise in digital holography by using of multiple holograms [J].
Chen, Zhaoji ;
Guo, Zhongjia ;
Zhang, Zhihui ;
Wang, Huaying .
HOLOGRAPHY, DIFFRACTIVE OPTICS, AND APPLICATIONS IV, 2010, 7848
[33]   Speckle reduction in digital holography using Independent Component Analysis [J].
Maycock, Jonathan ;
McElhinney, Conor P. ;
McDonald, John B. ;
Naughton, Thomas J. ;
Hennelly, Bryan M. ;
Javidi, Bahram .
PHOTON MANAGEMENT II, 2006, 6187 :U426-U437
[34]   Multi-mode microscopy in real-time with LED array illumination [J].
Liu, Ziji ;
Tian, Lei ;
Waller, Laura .
QUANTITATIVE PHASE IMAGING, 2015, 9336
[35]   Fiber-based real-time color digital in-line holography [J].
Kowalczyk, Adam ;
Bieda, Marcin ;
Makowski, Michal ;
Sypek, Maciej ;
Kolodziejczyk, Andrzej .
APPLIED OPTICS, 2013, 52 (19) :4743-4748
[36]   Design of a 2D fiber mode converter using a planar 2D multi-mode interference structure [J].
Wageeh, Amr ;
El-Sabban, Salwa ;
Khalil, Diaa .
OPTIK, 2020, 210
[37]   A biconical taper multi-mode fiber SERS sensor [J].
Bai, Hua ;
Chen, Zhenyi ;
Chen, Na ;
Guo, Qiang ;
Zhang, Kun ;
Pang, Fufei ;
Wang, Tingyun .
OPTICAL SENSORS AND BIOPHOTONICS II, 2011, 7990
[38]   Reduction of speckle noise in digital holography by combination of averaging several reconstructed images and modified nonlocal means filtering [J].
Che, LeiPing ;
Xiao, Wen ;
Pan, Feng ;
Dong, Bin ;
Zhong, Zheng .
OPTICS COMMUNICATIONS, 2018, 426 :9-15
[39]   Partial Parallelisation of MIMO Processing in Multi-Mode Fiber Transmission [J].
Parolari, Paola ;
Gatto, Alberto ;
Luis, Ruben S. ;
Rademacher, Georg ;
Puttnam, Benjamin J. ;
Antonelli, Cristian ;
Martelli, Paolo ;
Boffi, Pieerpaolo .
2023 IEEE PHOTONICS SOCIETY SUMMER TOPICALS MEETING SERIES, SUM, 2023,
[40]   Simulations of Mode Division Multiplexed Free Space Optics with Photonics Traversal Filter using Multi-Mode Fiber [J].
Poornachari, Prakash ;
Palanichamy, Kasthuri ;
Madan, Ganesh M. ;
Samathuvamani, Arul Prakash .
INFORMACIJE MIDEM-JOURNAL OF MICROELECTRONICS ELECTRONIC COMPONENTS AND MATERIALS, 2021, 51 (04) :207-213
12345