Every color, every flash, every sunray exacts a toll on the light-sensitive tissues at the back of our eyes, producing toxic materials that risk damaging the very cells that allow us to see.
Thankfully, the pigment responsible for darkening our hair, skin, and eyes moonlights as a clean-up crew, mopping up one such dangerous compound before it accumulates into damaging clumps.
Lining the back wall of our eyeball's inner surface is a shag-pile rug of light-reactive cells called the. Every fiber in this carpet is packed with pancake-like stacks of discs containing a crucial substance that catches photons of light, starting a chain of reactions that results in a nervous impulse the brain interprets as sight.
Österreich Neuesten Nachrichten, Österreich Schlagzeilen
Similar News:Sie können auch ähnliche Nachrichten wie diese lesen, die wir aus anderen Nachrichtenquellen gesammelt haben.
Bridging Quantum Theory and Relativity: Curved Spacetime in a Quantum SimulatorNew techniques can answer questions that were previously inaccessible experimentally — including questions about the relationship between quantum mechanics and relativity. Scientists at TU Wien and other institutions have developed a 'quantum simulator' using ultracold atomic clouds to model quan
Weiterlesen »
Jack Harlow & Sinqua Walls on 'White Men Can't Jump' and Cast ChemistryWalls also talks about the importance of exploring his character's mental health journey and finding what brings you peace.
Weiterlesen »
Dua Lipa Just Hard-Launched Her New BeauIt's the ✨ gazing in each other's eyes ✨ for me.
Weiterlesen »
Peeling Back Quantum Mysteries: New Tool Disentangles the Electronic States Layer-by-LayerResearchers at the University of Chicago, Pritzker School of Molecular Engineering (PME) have created a novel instrument that can help reveal the origin of electronic states in engineered materials, paving the way for their use in future quantum technology applications. Assistant Professor Shuolo
Weiterlesen »
Quantum Biology: Unlocking the Mysteries of How Life WorksQuantum biology explores how quantum effects influence biological processes, potentially leading to breakthroughs in medicine and biotechnology. Despite the assumption that quantum effects rapidly disappear in biological systems, research suggests these effects play a key role in physiological proce
Weiterlesen »
UChicago to develop quantum supercomputer with Google, IBM and University of TokyoUChicago formalized the partnership for quantum supercomputer technology at the Group of 7 Summit in Japan.
Weiterlesen »