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Tomographic diffractive microscopy: towards high-speed and high-resolution quantitative imaging of unlabelled samples
Olivier HAERBERLE
Laboratoire MIPS, Université Haute Alsace, Mulhouse
Tue, Dec. 13th 2016, 10:30-11:30
LIDYL Bât.522, Grande salle 137-138, CEA-Saclay

Fluorescence microscopy has become the reference technique in cellular imaging, thanks to the specificity of fluorescence labelling, its high resolution and the ability to image living specimens. However, the use of fluorophores can induce side effects, marking can be difficult, and speed of acquisition is often limited, especially for three-dimensional imaging.

So, techniques for observing specimens without the need for additional marking recently experienced a resurgence of interest, such as light microscopy in transmission. In recent years, many articles have been published, describing new imaging techniques to acquire the optogeometric specimens characteristics without preparation, by combining new acquisition systems with a digital reconstruction of the images of observed samples, based on diffraction theory. Such techniques are known under various names: phase microscopy, digital holographic microscopy, synthetic aperture microscopy, tomographic phase microscopy, tomographic diffractive microscopy. They offer improved accuracy, and/or a higher resolution than conventional microscopes, and/or for measuring quantitative information about the optical properties of the observed specimen. Also, by not being limited by low light emission, these techniques allow ultrafast imaging (one 3D image in one second or less).

Contact : Caroline LEBE

 

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