We are swimming in it uncertain nature. Astronomers estimate that about 85 percent of the total mass in the universe comes from tiny particles called darkness. Our Milky Way galaxy, which appears to be a bright light, is located in the coldest part of the universe — a delicate, delicate, orbiting line. But the dark form means that it is impossible. It doesn’t connect to the electric field as light, and any potential collisions are complex and hard to detect.
Astronomers have abandoned this. They are manufacturing experiments On earth made of metal chips, or argon baths, to hold the connections directly. They have looked at how black the subject is can affect neutron stars. And it is exploring how it floats by other celestial bodies. “We know we have stars and planets, and it’s just a spice in the halo,” he says Rebecca Leane, astronomer and SLAC National Accelerator Laboratory. “Just going through the halo, they can connect with the black story.”
For this reason, Leane asks us to watch them in the vast Milky Way galaxy, or those outside our solar system. In particular, he thinks we should use giant gas weapons, planets like our Jupiter. Black matter can be trapped on the planets, like the sand. When this happens, tiny particles can collide and destroy, releasing heat. Such temperatures can accumulate to make the earth extremely hot, especially near the center of the galaxy. In April, Leane and a friend, Yuri Smirnov from Ohio State University, published paper in Correspondence Letters which stated that measuring the temperature of several species entering the center of the Milky Way could reveal a darker side: unexpected temperatures.
Their paper was based on accounting, not analysis. But the heat that Leane and Smirnov predict is too great, and soon we will have an advanced thermometer: the new NASA James Webb Space Telescope is expected to establish this fall. JWST is an infrared telescope, and the most powerful space telescope ever built.
“It’s a very weird and confusing way to get black stuff,” he says Joseph Bramante, a team scientist with Queen’s University and the McDonald Institute in Ontario, who were not part of the study. Bramante had already learned about the possibility of finding blacks on the planets. He also said that finding amazingly hot planets pointing in the middle of the Milky Way is “very important to sign a gun signature.”
It has been 30 years since astronomers discovered the first exoplanets. Because they are much cooler than the stars around them, they are hard to see by themselves; they often express themselves honestly a little obscuring the light of those stars. Astronomers also find and grow exoplanets and tricks like put a little. (The gravitational pull of one star interferes with our ability to see the light of another star, and the planet between the two creates a blip inside that The number of exoplanet is now increasing at 4,375, but some 300 billion may be out there.
Dark objects often move freely between the islands on “normal” objects, meaning they slide past objects without interaction. But when one dark thing happens to spin small particles like protons, it slows down with smidgeon. “Like billions upon billions,” says Leane. “He would come in, hit her, and then explode. But it can start with very little energy. ”
Adequate exposure to these hazards greatly delays our escape from planetary gravity. Astronomers expect that this “scattering” and capture will occur, tiny particles that can collide and destroy one another. The dark elements of nature decay and disappear. Leane says, “When they break together, it puts energy in the planets.”