The resolution of an optical system (like a telescope or a camera) is limited by the so-called Rayleigh criterion. An international team has broken this limit, showing that it is not a fundamental ...

Rayleigh's curse, a limit on resolution, ... Optical systems such as telescopes or cameras have been limited by a phenomenon scientist call the Rayleigh criterion, ...

According to the widely accepted Rayleigh criterion, in order to resolve two distant point sources, their angular separation must be larger than 1.22 (the wavelength of light divided by the ...

The research suggests that a relatively simple quantum set-up could be used to extract spatial information that is traditionally limited by the so-called Rayleigh criterion—a rule dating back ...

The "Rayleigh Criterion" has stood as an inherent limitation of the field of optics ever since. Telescopes, though, only register light's "intensity" or brightness.

Two become one: various diffraction patterns showing Rayleigh's criterion. (Credit: Wikimedia Commons/Spencer Blevin) Scientists have long believed that diffraction limits the minimum distance that ...

According to the Rayleigh Criterion theory, proposed by John William Strutt, 3rd Baron Rayleigh, back in 1896, a traditional light-based microscope’s resolution is limited by not only the optics ...

The "Rayleigh Criterion" has stood as an inherent limitation of the field of optics ever since. Telescopes, though, only register light's "intensity" or brightness.

The resolution of an optical system (like a telescope or a camera) is limited by the so-called Rayleigh criterion. An international team, led by Complutense University of Madrid, has broken this ...

The research suggests that a relatively simple quantum set-up could be used to extract spatial information that is traditionally limited by the so-called Rayleigh criterion—a rule dating back ...