We present an effective method for the pixel-size-maintained reconstruction of images on arbitrarily tilted planes in digital holography. The method is based on the plane wave expansion of the diffraction wave fields and the three-axis rotation of the wave vectors. The images on the tilted planes are reconstructed without loss of the frequency contents of the hologram and have the same pixel sizes. Our method shows good results in the extreme cases of large tilting angles and in the region closer than the paraxial case. The effectiveness of the method is demonstrated by both simulation and experiment. (C) 2008 Optical Society of America.X1124sciescopu
A robust approach is designed to evaluate the reference tilt angle (RTA) accurately and efficiently ...
The determination of numerical reconstruction distance is key to recover the wavefront at focal plan...
In the context of fast and 3D quantitative microscopy, on-axis digital holography has a significant ...
We present a new method for numerically reconstructing digital holograms on tilted planes. The metho...
An approach is suggested to recover and then locate the original object image in off-axis digital ho...
The evaluation of the Rayleigh-Sommerfeld diffraction formula by means of numerical convolution and ...
Digital Holography is an imaging modality made up of two parts: (i) Recording an interference patte...
Computation of the diffraction pattern that gives the desired reconstruction of an object upon prope...
Novel method for synthesizing light waves from objects expressed in surface model is presented for f...
Digital holography is a new technology emerged in 1994. Because of developments of Laser, personal c...
This paper describes a method of numerical reconstruction for digital holography with changed viewin...
Here we present practical methods for simulation and reconstruction of in-line digital holograms rec...
Digital Holography Microscopy (DHM) is a powerful tool for three-dimensional imaging of micro-object...
This paper discusses conventional synthetic-aperture method combined angular multiplexing in digital...
This paper investigates the application of Fresnel based numerical algorithms for the reconstruction...
A robust approach is designed to evaluate the reference tilt angle (RTA) accurately and efficiently ...
The determination of numerical reconstruction distance is key to recover the wavefront at focal plan...
In the context of fast and 3D quantitative microscopy, on-axis digital holography has a significant ...
We present a new method for numerically reconstructing digital holograms on tilted planes. The metho...
An approach is suggested to recover and then locate the original object image in off-axis digital ho...
The evaluation of the Rayleigh-Sommerfeld diffraction formula by means of numerical convolution and ...
Digital Holography is an imaging modality made up of two parts: (i) Recording an interference patte...
Computation of the diffraction pattern that gives the desired reconstruction of an object upon prope...
Novel method for synthesizing light waves from objects expressed in surface model is presented for f...
Digital holography is a new technology emerged in 1994. Because of developments of Laser, personal c...
This paper describes a method of numerical reconstruction for digital holography with changed viewin...
Here we present practical methods for simulation and reconstruction of in-line digital holograms rec...
Digital Holography Microscopy (DHM) is a powerful tool for three-dimensional imaging of micro-object...
This paper discusses conventional synthetic-aperture method combined angular multiplexing in digital...
This paper investigates the application of Fresnel based numerical algorithms for the reconstruction...
A robust approach is designed to evaluate the reference tilt angle (RTA) accurately and efficiently ...
The determination of numerical reconstruction distance is key to recover the wavefront at focal plan...
In the context of fast and 3D quantitative microscopy, on-axis digital holography has a significant ...