Lifeboat Foundation: Safeguarding Humanity
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Blog – Page 27

Author summary Humans exhibit a remarkable ability to regulate their actions in response to changing environmental demands. An essential aspect of action regulation is action inhibition that occurs when stopping unwanted or inappropriate actions. However, everyday life rarely calls for complete inhibition of responses without switching behavior to adapt to new situations. Despite extensive research to understand how the brain switches actions, the computations underlying the switching process and how it relates to the selecting and stopping processes remain elusive. Part of this challenge lies in the fact that these processes are rarely studied together, making it difficult to develop a unified theory that explains the computational aspects of the action regulation mechanism. The current study aims to delineate the computations underlying action regulation functions that involve inhibitory control, explore how these functions interrelate, and how they can be implemented within brain networks, opening new avenues for future neurophysiological investigations.

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Teleportation isn’t just science fiction anymore — scientists have found a way to send information more clearly and efficiently than ever before.

Using an incredibly tiny material called a nanophotonic platform, researchers dramatically improved how well quantum information can travel, even with just single particles of light. This breakthrough means teleportation could one day be part of real-world communication networks, opening the door to a future where information zips through space in ways once thought impossible.

Nonlinear optics: the key to quantum communication.

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Earth’s atmosphere is much more sensitive to ripples of radiation from the sun than scientists previously believed, new research by Queen’s University Belfast has found.

Solar flares, which are sudden and intense bursts of energy from the sun’s magnetic field, happen regularly.

Understanding how they impact the Earth’s atmosphere is important as very powerful flares can cause inaccuracies in GPS systems and, in extreme cases, can cause total radio blackouts, where all signal is lost.

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The NASA team behind the Nancy Grace Roman Space Telescope – due to launch in 2027 – have shared the designs for the mission’s 3 core surveys.

Roman will deepen understanding into the mysteries of astrophysics and the universe.

“Roman’s setting out to do wide, deep surveys of the universe in a way that will help us answer questions about how dark energy and dark matter govern cosmic evolution, and the demographics of worlds beyond our solar system,” says Gail Zasowski, an associate professor at the University of Utah, US, and co-chair of the Roman Observations Time Allocation Committee (ROTAC).

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