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Literature DB >> 20634840

Optical encryption based on computational ghost imaging.

Pere Clemente¹, Vicente Durán, Víctor Torres-Company, Enrique Tajahuerce, Jesús Lancis.

Abstract

Ghost imaging is an optical technique in which the information of an object is encoded in the correlation of the intensity fluctuations of light. The computational version of this fascinating phenomenon emulates, offline, the optical propagation through the reference arm, enabling 3D visualization of a complex object whose transmitted light is measured by a bucket detector. In this Letter, we show how computational ghost imaging can be used to encrypt and transmit object information to a remote party. Important features, such as key compressibility and vulnerability to eavesdropping, are experimentally analyzed.

Year: 2010 PMID： 20634840 DOI： 10.1364/OL.35.002391

Source DB: PubMed Journal: Opt Lett ISSN： 0146-9592 Impact factor: 3.776

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Cited

20 in total

Optical encryption based on computational ghost imaging.

1. Sub-Rayleigh imaging via speckle illumination.

2. Hadamard single-pixel imaging versus Fourier single-pixel imaging.

3. Multi-Party Cryptographic Key Distribution Protocol over a Public Network Based on a Quick-Response Code.

4. Compressive adaptive computational ghost imaging.

5. Compressive optical image encryption.

6. A multispectral photon-counting double random phase encoding scheme for image authentication.

7. Long-distance temporal quantum ghost imaging over optical fibers.

8. Multispectral imaging using a single bucket detector.

9. Fast Fourier single-pixel imaging via binary illumination.

10. Three-dimensional ghost imaging lidar via sparsity constraint.