The influence of atmospheric turbulence is investigated on computational ghost imaging (CGI). The results indicate that turbulence disrupts the resolution of computational ghost imaging, necessitating an alternative high-resolution imaging strategy. The Differential Computational ghost imaging (DCGI) are used to mitigate its impact. DCGI substantially enhances imaging resolution through engineered structured illumination. Furthermore, the DCGI scheme exhibits adaptability under atmospheric turbulence, facilitating real-time non-imaging edge detection in practical scenarios. The experimental and theoretical findings highlight the impact of atmospheric turbulence on imaging resolution and underscore DCGI's resilience to such effects where the...
We demonstrate computational ghost imaging with numerical integration performed by the human eye. Th...
Atmospheric turbulence is a well-known phenomenon that often degrades image quality due to intensity...
The joint impact of atmospheric refraction and turbulence effects on the modulation transfer functio...
Ghost imaging with partially coherent light through two kinds of atmospheric turbulences: monostatic...
Since its first experimental demonstration, ghost imaging has attracted a great deal of attention du...
Recent work has indicated that ghost imaging may have applications in standoff sensing. However, mos...
Atmospheric turbulence generally affects the resolution and visibility of an image in long-distance ...
Lensless ghost imaging with thermal light through turbulent atmosphere is investigated. Based on the...
When an image is taken while subjected to a temperature gradient, the image undergoes geometric dist...
Although optical aperture synthesis has been generally regarded as the only access to very large ima...
Atmospheric turbulence generally affects the resolution and visibility of an image in long-distance ...
Conventional computational ghost imaging (CGI) uses light carrying a sequence of patterns with unifo...
Recently, a two-color quantum ghost imaging configuration was proposed by Karmakar et al. [Phys. Rev...
We investigate the effect of turbulence on quantum ghost imaging. We use entangled photons and demon...
The performance of long distance imaging systems is typically degraded by phase errors imparted by a...
We demonstrate computational ghost imaging with numerical integration performed by the human eye. Th...
Atmospheric turbulence is a well-known phenomenon that often degrades image quality due to intensity...
The joint impact of atmospheric refraction and turbulence effects on the modulation transfer functio...
Ghost imaging with partially coherent light through two kinds of atmospheric turbulences: monostatic...
Since its first experimental demonstration, ghost imaging has attracted a great deal of attention du...
Recent work has indicated that ghost imaging may have applications in standoff sensing. However, mos...
Atmospheric turbulence generally affects the resolution and visibility of an image in long-distance ...
Lensless ghost imaging with thermal light through turbulent atmosphere is investigated. Based on the...
When an image is taken while subjected to a temperature gradient, the image undergoes geometric dist...
Although optical aperture synthesis has been generally regarded as the only access to very large ima...
Atmospheric turbulence generally affects the resolution and visibility of an image in long-distance ...
Conventional computational ghost imaging (CGI) uses light carrying a sequence of patterns with unifo...
Recently, a two-color quantum ghost imaging configuration was proposed by Karmakar et al. [Phys. Rev...
We investigate the effect of turbulence on quantum ghost imaging. We use entangled photons and demon...
The performance of long distance imaging systems is typically degraded by phase errors imparted by a...
We demonstrate computational ghost imaging with numerical integration performed by the human eye. Th...
Atmospheric turbulence is a well-known phenomenon that often degrades image quality due to intensity...
The joint impact of atmospheric refraction and turbulence effects on the modulation transfer functio...