noun a technology used in telescopes to actively adjust the shape of a mirror or lens to improve image quality
Active optics is a technology used in telescopes to actively adjust the shape of the mirror to compensate for distortions caused by temperature changes or mechanical stress.
Active optics is essential in large telescopes to maintain image quality by continuously correcting for atmospheric turbulence and other aberrations.
Active optics is a key component in the design of adaptive optics systems used in various engineering applications to improve image quality and resolution.
Active optics is used in space telescopes to counteract the effects of microgravity and ensure precise imaging of distant objects.
Active optics plays a crucial role in the field of optics and photonics by enabling real-time adjustments to optical elements for optimal performance.
Active optics is used in telescopes to actively adjust the shape of the mirrors to compensate for distortions caused by temperature changes and other factors, resulting in clearer images.
Active optics is used in the design and development of optical systems such as cameras, microscopes, and laser systems to actively correct aberrations and improve overall performance.
Active optics is used in satellite imaging systems to actively control the shape of the mirrors or lenses to maintain precise focus and image quality while in orbit.
Active optics is used in microscopes and imaging systems to actively correct for optical distortions and improve the clarity and resolution of biological samples being studied.