Image transmission through an opaque material
Optical imaging relies on the ability to illuminate an object, collect and analyse the light it scatters or transmits. Propagation through complex media such as biological tissues was so far believed to degrade the attainable depth, as well as the resolution for imaging, because of multiple scatteri...
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| Veröffentlicht in: | Nature communications 2010-09, Vol.1 (1), p.81-81, Article 81 |
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| creator | Popoff, Sébastien Lerosey, Geoffroy Fink, Mathias Boccara, Albert Claude Gigan, Sylvain |
| description | Optical imaging relies on the ability to illuminate an object, collect and analyse the light it scatters or transmits. Propagation through complex media such as biological tissues was so far believed to degrade the attainable depth, as well as the resolution for imaging, because of multiple scattering. This is why such media are usually considered opaque. Recently, we demonstrated that it is possible to measure the complex mesoscopic optical transmission channels that allow light to traverse through such an opaque medium. Here, we show that we can optimally exploit those channels to coherently transmit and recover an arbitrary image with a high fidelity, independently of the complexity of the propagation.
The challenge of reconstructing the image of an object when viewed through an opaque material is of particular importance for biological tissues. Here, the authors show that it is possible to reconstruct the image of a complex object from interference patterns of multiple wavefronts using phase-shifting interferometry. |
| doi_str_mv | 10.1038/ncomms1078 |
| format | Article |
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The challenge of reconstructing the image of an object when viewed through an opaque material is of particular importance for biological tissues. 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| title | Image transmission through an opaque material |
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