noun a technology used to improve the performance of optical systems by reducing the effects of distortion and aberrations
In astronomy, adaptive optics is used to reduce the effects of atmospheric distortion on telescopic images, allowing for clearer and sharper observations of celestial objects.
In ophthalmology, adaptive optics is used to improve the resolution of retinal imaging, aiding in the diagnosis and monitoring of various eye conditions.
In microscopy, adaptive optics is used to correct for aberrations in optical systems, enabling higher resolution imaging of biological samples.
In military applications, adaptive optics is used in target tracking, surveillance, and directed energy weapons to enhance imaging and targeting capabilities.
In laser communication systems, adaptive optics is used to compensate for atmospheric turbulence, improving the quality and reliability of data transmission.
In astronomy, adaptive optics is used to correct for distortions caused by the Earth's atmosphere, allowing for clearer images of stars and planets.
In ophthalmology, adaptive optics is used to improve the resolution of retinal imaging, allowing for better diagnosis and monitoring of eye conditions.
In engineering, adaptive optics is used in laser communication systems to compensate for distortions in the atmosphere and maintain a stable connection.
In military applications, adaptive optics is used for target tracking and surveillance, allowing for better accuracy in long-range sensing and imaging.