A group of German researchers has discovered how tiny eye movements and the density of photoreceptors assist in visual acuity ...

A new study reveals how the brain compensates for rapid eye movements, maintaining a stable visual perception despite dynamic ...

and that larger eye movements can impair vision. How drift relates to the photoreceptors in the fovea, however, and our ability to resolve fine detail has not been investigated until now.

A new study from the University Hospital Bonn (UKB) and the University of Bonn has uncovered a fascinating link between sharp ...

Researchers in Bonn reveal how subtle eye movements and the density of photoreceptors contribute to sharp vision. Our ability to see begins with the light-sensitive photoreceptor cells in our eyes. A ...

Those in search of a competitive edge are tapping into the eye-opening world of vision training to fine-tune processing ...

Motion illusions override the eye’s compensatory mechanisms for stabilizing movements. The brain works intensively to process ...

These minuscule movements continue even when we’re trying our hardest to stare at a fixed point. How do our eyes create sharp ...

A research team has been investigating the question of how we perceive a stable environment despite constant eye movements. The result: rapid and smooth eye movements are based on different mechanisms ...

Eye movements that shift quickly from one side to another can help people with Parkinson’s disease keep their balance, much ...

Researchers have now investigated how sharp vision is linked to these tiny eye movements and the mosaic of cones. Using high-resolution imaging and micro-psychophysics, they demonstrated that eye ...

Researchers from the University Hospital Bonn (UKB) and the University of Bonn have now investigated how sharp vision is linked to these tiny eye movements and the mosaic of cones. Using high ...