AI Article Synopsis
- A new method for submicrometer imaging using digital holographic microscopy is introduced, combining multiple wavelengths and off-axis geometry to capture detailed interference patterns from microscopic specimens.
- The technique involves recording holograms with a CCD camera and numerically reconstructing the complex wavefronts to enhance image quality at a specific plane of interest while minimizing interference from other planes.
- This method employs 20 wavelengths between 480-700 nm to achieve high-resolution imaging, allowing for object sectioning into slices that are 725 nm thick for in-depth analysis.
Article Abstract
We present a method for submicrometer tomographic imaging using multiple wavelengths in digital holographic microscopy. This method is based on the recording, at different wavelengths equally separated in the k domain, in off-axis geometry, of the interference between a reference wave and an object wave reflected by a microscopic specimen and magnified by a microscope objective. A CCD camera records the holograms consecutively, which are then numerically reconstructed following the convolution formulation to obtain each corresponding complex object wavefront. Their relative phases are adjusted to be equal in a given plane of interest and the resulting complex wavefronts are summed. The result of this operation is a constructive addition of complex waves in the selected plane and destructive addition in the others. Tomography is thus obtained by the attenuation of the amplitude out of the plane of interest. Numerical variation of the plane of interest enables one to scan the object in depth. For the presented simulations and experiments, 20 wavelengths are used in the 480-700 nm range. The result is a sectioning of the object in slices 725 nm thick.
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| http://dx.doi.org/10.1364/ao.45.008209 | DOI Listing |
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