Polarization microscopy by use of digital holography: application to optical-fiber birefringence measurements.

@article{Colomb2005PolarizationMB,
  title={Polarization microscopy by use of digital holography: application to optical-fiber birefringence measurements.},
  author={Tristan Colomb and F. D{\"u}rr and Etienne Cuche and Pierre Marquet and Hans G. Limberger and Ren{\'e} Salath{\'e} and Christian D. Depeursinge},
  journal={Applied optics},
  year={2005},
  volume={44 21},
  pages={
          4461-9
        }
}
We present a digital holographic microscope that permits one to image polarization state. This technique results from the coupling of digital holographic microscopy and polarization digital holography. The interference between two orthogonally polarized reference waves and the wave transmitted by a microscopic sample, magnified by a microscope objective, is recorded on a CCD camera. The off-axis geometry permits one to reconstruct separately from this single hologram two wavefronts that are… 
View on PubMed
rayscience.com
102 Citations
Highly Influential Citations
1
Background Citations
6
Methods Citations
16

Figures from this paper

102 Citations

Citation Type

Citation Type

Single-shot digital holography for fast measuring optical properties of fibers.
TLDR
The proposed approach enhances affects that arise from the limited spatial extent of the bandpass filter associated with the implementation of the spatial carrier frequency method, in contrast to the low spatial resolution of off-axis digital holograms, and ensures the best utilization of the camera support.
Digital holographic microscopy for the study of nano-fibers
The advantages of digital holographic microscopy to record not only the intensity but also the optical phase are employed. The experimental arrangement comprises a Mach-Zehnder type interferometer
Polarization-sensitive imaging based on incoherent holography.
TLDR
In the recording process, the automation of phase shift, photography, and synthesization of color hologram is utilized to greatly shorten the total recording time of a group of phase-shifted holograms.
Shot noise, refractive index tomography and aberrations estimation in digital holographic microscopy
The present thesis develops some specific aspects of digital holographic microscopy (DHM), namely the effect of shot noise on the phase image accuracy, the use of DHM in micro-tomography and in
Superresolution digital holographic microscopy for three-dimensional samples.
TLDR
An approach that allows superresolution imaging of three-dimensional (3-D) samples by numerical refocusing is presented in the field of digital holographic microscopy and a time multiplexing superresolved approach to overcome the Abbe's diffraction limit is presented.
Digital holographic interferometric characterization of bent optical fibers
The cross-sectional refractive index distribution is the most important parameter for optical fibers. If fibers are bent, birefringence occurs and the refractive index distribution is changed, which
Single-shot digital holographic microscopy for quantifying a spatially-resolved Jones matrix of biological specimens.
TLDR
Digital holographic microscopy is demonstrated for quantifying a polarization-sensitive map of an object with a single-shot measurement that will facilitate the high-precision measurements for fast dynamics of the polarization properties of biological specimens.
Polarization-Sensitive Digital Holographic Imaging for Characterization of Microscopic Samples: Recent Advances and Perspectives
Polarization-sensitive digital holographic imaging (PS-DHI) is a recent imaging technique based on interference among several polarized optical beams. PS-DHI allows simultaneous quantitative
Exploiting a holographic polarization microscope for rapid autofocusing and 3D tracking.
TLDR
It is claimed that it is the first time that a holographic polarization multiplexing setup is exploited intrinsically for 3D tracking and/or fast and accurate refocusing and almost any polarization DH setup, thanks to the results, can guarantee accurate focusing along the optical axis in addition to polarization analysis of the sample, thus overcoming the limitation of the poor axial resolution.
Digital holographic microscopy
A traditional microscope is not capable of imaging phase object or three dimensional object. Computational Microscopy is proposed to address these two limitations. In Computational Microscopy, the
...
1
2
3
4
5
...

References

SHOWING 1-10 OF 19 REFERENCES
Polarization imaging by use of digital holography.
TLDR
It is shown that this method can be used to image and measure the distribution of the polarization state at the surface of a specimen, and the obtained results indicate that precise quantitative measurements of the polarized state can be achieved.
Jones vector imaging by use of digital holography: simulation and experimentation
Pattern recognition with a digital holographic microscope working in partially coherent illumination.
TLDR
To have a robust recognition process, a generalized version of the automatic spatial-frequency-selection filters has been implemented and is experimentally demonstrated in a two-class problem for the recognition of protein crystals.
Simultaneous amplitude-contrast and quantitative phase-contrast microscopy by numerical reconstruction of Fresnel off-axis holograms.
TLDR
Off-axis holograms recorded with a magnified image of microscopic objects are numerically reconstructed in amplitude and phase by calculation of scalar diffraction in the Fresnel approximation to show that the transverse resolution is equal to the diffraction limit of the imaging system.
Compact complete imaging polarimeter using birefringent wedge prisms.
TLDR
No mechanical or active elements for analyzing polarization are used, and all the parameters related to the spatially-dependent monochromatic Stokes parameters corresponding to azimuth and ellipticity angles can be determined from a single frame.
New polarized light microscope with precision universal compensator
TLDR
A new type of polarized light microscope for fast and orientation‐independent measurement of birefringent fine structure has been developed and incorporates a precision universal compensator made from two liquid crystal variable retarders.
Interference Microscope with Total Wavefront Reconstruction
An interference microscope is described, constructed in 1951–56, in which three-dimensional objects can be reconstructed, correctly incorporating amplitudes and phases, from two photographs
Digital holographic microscope with automatic focus tracking by detecting sample displacement in real time.
TLDR
A new method for focus tracking during the recording of a sequence of digital holograms while the sample experiences axial displacement is proposed and can be applied as a quasi-real-time procedure.
Spatial filtering for zero-order and twin-image elimination in digital off-axis holography.
Off-axis holograms recorded with a CCD camera are numerically reconstructed with a calculation of scalar diffraction in the Fresnel approximation. We show that the zero order of diffraction and the
Temporal phase unwrapping of digital hologram sequences.
TLDR
By temporal phase unwrapping it is possible to determine the absolute deformation (included the direction of motion) of the object by using the phase of the wave front to be calculated by use of a two-dimensional digital Fourier-transform method.
...
1
2
...