Above is the artist's impression of Artemis telescopes. When Artemis cooperates with gravity wave telescopes and other telescopes it can deliver information about things like fast radiation bursts (GRB, XRB, FRB (fast Gamma, X-ray, Radio wave bursts). And their connection with things like gravity waves and moonquakes.
The Artemis telescope will send to the Moon's surface. The system is a combination of small telescopes. And the AI-based systems will connect those smaller telescope images into one entirety. The Artemis telescope is like neteye. One of those units is not very dramatic or impressive. But when a large number of those small telescopes work together, they can make images that lose the JWST telescope far behind them. NASA can send those telescopes to the Moon using automatized modules.
The Artemis telescope can cooperate with new gravity wave observatories. That telescope can also find connections between gravity waves, high energy reactions, XRB, GRB, and FRB. An interesting thing is, do moonquakes have connections with things like FRBs?
The solar wind blows material away from the Moon.
And is the same kind of reaction behind some of those moonquakes? Most moonquakes happen when the Moon's size turns smaller. But an interesting detail is how things like FRBs:s are interacting with Moon material. When the Moon loses its material to space because of solar wind. That affects its gravity.
Same way when FRB hits the Moon, its energy level rises. Theoretically, radiation that comes from the Sun should affect somehow the Moon's gravity field. Those kinds of interactions are complicated. When FRB travels straight through the Moon's nucleus, that can cause a Moonquake.
The new quantum sensor can make impressive observations about its environment. And it can make it possible to create new types of photonic computers.
What would you do with the line of krypton atoms? Researchers captured a line of krypton atoms in the nanotube. And that thing can make it possible to create extremely sensitive antennas. That atom line makes it possible to create sensors. They are more sensitive than ever before. The nanosensors are sensitive systems. But those quantum systems are even more sensitive than those nanosystems.
The line of krypton atoms can used in nanotechnical laser or maser systems. When electromagnetic radiation stresses those atoms, they send energy impulses to the target. The thing is that the atom line in those quantum systems must not be krypton. Also, researchers can put any other atoms in line. And those systems can revolutionize nanochemistry.
The nano-size maser systems can also make it possible to input data into the new photonic sensors that are required to transmit information between photonic microchips and electric systems.
https://scitechdaily.com/moonquake-alert-the-moon-is-shrinking-causing-landslides-and-seismic-shaking/
https://scitechdaily.com/nasas-artemis-moon-telescope-could-explore-the-cosmos-in-unprecedented-detail/
https://scitechdaily.com/scientists-trap-krypton-atoms-in-carbon-nanotube-to-form-one-dimensional-gas/
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