Differential Ghost Imaging
National Interuniversity Consortium for the Physical Sciences of Matter · University of Insubria
Abstract
We present a new technique, differential ghost imaging (DGI), which dramatically enhances the signal-to-noise ratio (SNR) of imaging methods based on spatially correlated beams. DGI can measure the transmission function of an object in absolute units, with a SNR that can be orders of magnitude higher than the one achievable with the conventional ghost imaging (GI) analysis. This feature allows for the first time, to our knowledge, the imaging of weakly absorbing objects, which represents a breakthrough for GI applications. Theoretical analysis and experimental and numerical data assessing the performances of the technique are presented.
Citation impact
- FWCI
- 6.22
- Percentile
- 100%
- References
- 22
Authors
4- FFF. FerriCorresponding
National Interuniversity Consortium for the Physical Sciences of Matter, University of Insubria
- DMD. Magatti
University of Insubria, National Interuniversity Consortium for the Physical Sciences of Matter
- LAL. A. Lugiato
National Interuniversity Consortium for the Physical Sciences of Matter, University of Insubria
- AGA. Gatti
National Interuniversity Consortium for the Physical Sciences of Matter, University of Insubria
Topics & keywords
- Ghost imaging
- Physics
- Measure (data warehouse)
- Differential (mechanical device)
- Optics
- Signal-to-noise ratio (imaging)
- Feature (linguistics)
- Transmission (telecommunications)