NASA Images Reveal Huge Entrance Leading inside The Moon
A grand anomaly has recently been detected on the lunar surface, and it strongly resembles the entrance to a hollow place, inside the Moon.
On December 21, 1968, NASA’s Apollo 8 mission took flight toward Earth’s natural satellite – the Moon. The event marked a historic moment for humanity, as it carried the first humans out of Earth’s orbit, and into the Moon’s. The mission, led by Commander Frank Borman, Command Module pilot James Lovell, and Lunar Module Pilot William Anders, became the first human mission to see and also photograph the far side of the Moon.
A total of 2908 pictures were taken using a 70 mm camera installed on the Lunar Orbiter, and surprisingly or not, several anomalies came into the picture. After they orbited the Moon ten times over the course of 20 hours, the crew took a final shot of the dark side of the ‘natural satellite’ that we never get to see. In it, a massive triangular structure was clearly visible on the surface, and after the images were made public by NASA, a heated debate has taken over...
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Astronomers have seen a huge star explode in a fiery supernova for the first time ever. The event was even more spectacular than the scientists had expected.
According to a new study published in the Astrophysical Journal on January 6, scientists began watching SN 2020tlf, a red supergiant 120 million light-years away from Earth, more than 100 days before its last, catastrophic collapse. During this time, the scientists witnessed the star erupting with bright flashes of light and huge balls of gas shooting out of its surface.
These pre-supernova pyrotechnics came as a big surprise, as previous observations of red supergiants about to blow their tops showed no traces of violent emissions, the researchers said.
This is a breakthrough in our understanding of what massive stars do moments before they die," lead study author Wynn Jacobson-Galán, a research fellow at the University of California, Berkeley said in a statement. "For the first time, we watched a red supergiant star explode!"
In terms of volume, red supergiants are the largest stars in the universe, measuring hundreds or even thousands of times the radius of the sun. (Despite their bulk, red supergiants are not the brightest or most massive stars in the universe.)
Atoms in the cores of these huge stars fuse together to make energy, just like our sun does. On the other hand, red supergiants can make things that are much heavier than the hydrogen and helium that our sun burns. As supergiants burn heavier elements, their cores get hotter and more compact. When these stars start fusing iron and nickel, their cores collapse, and they send their gassy outer atmospheres into space in a type II supernova explosion, they run out of energy.
Scientists have observed red supergiants before they go supernova and studied the aftermath of these cosmic explosions, but they have never witnessed the entire process in real time until now.
The new study’s authors began observing SN 2020tlf in the summer of 2020, when the star flickered with bright flashes of radiation, which they later interpreted as gas exploding off the star’s surface. The researchers tracked the cranky star for 130 days using two telescopes in Hawaii: the University of Hawaii Institute for Astronomy Pan-STARRS1 telescope and the W. M. Keck Observatory on Mauna Kea. Finally, at the end of that time, the star exploded.
Researchers found evidence that a dense cloud of gas was surrounding the star at the time of its explosion. This cloud of gas was probably the same gas that the star had been giving off in the months before its explosion. This shows that huge explosions started long before the core of the star broke apart in the fall of 2020.
"We’ve never confirmed such violent activity in a dying red supergiant star where we see it produce such a luminous emission, then collapse and combust, until now," study co-author Raffaella Margutti, an astrophysicist at UC Berkeley, said in the statement.
These observations suggest that red supergiants undergo significant changes in their internal structures, resulting in chaotic explosions of gas in their final months before collapsing, the team concluded.
Exploration of galaxies at much greater distances from Earth may now be possible.
How do stars form in distant galaxies? Astronomers have been trying to answer this question for a long time by detecting radio signals emitted by nearby galaxies. These signals, however, become weaker the further a galaxy is from Earth, making them difficult to detect with today’s radio telescopes.
Researchers from Montreal and India have now captured a radio signal from the most distant galaxy so far at a specific wavelength known as the 21 cm line, allowing astronomers to peer into the early universe’s secrets. This is the first time a radio signal of this type has been detected at such a large distance using India’s Giant Metrewave Radio Telescope.
"A galaxy emits different kinds of radio signals. Until now, it’s only been possible to capture this particular signal from a galaxy nearby, limiting our knowledge to those galaxies closer to Earth," says Arnab Chakraborty, a Post-Doctoral Researcher at McGill University under the supervision of Professor Matt Dobbs.
"But thanks to the help of a naturally occurring phenomenon called gravitational lensing, we can capture a faint signal from a record-breaking distance. This will help us understand the composition of galaxies at much greater distances from Earth," he adds.
A look back in time to the early universe
For the first time, the researchers were able to detect and measure the signal from SDSSJ0826+5630, a distant star-forming galaxy. The atomic mass of the gas content of this particular galaxy, according to the researchers, is nearly twice the mass of the visible stars.
The team’s detected signal was emitted from this galaxy when the universe was only 4.9 billion years old, allowing the researchers to peer into the early universe’s secrets. "It’s the equivalent of 8.8 billion years in time," says Chakraborty, a cosmologist at McGill’s Department of Physics.
Picking up the signal from a distant galaxy
"Gravitational lensing magnifies the signal coming from a distant object to help us peer into the early universe. In this specific case, the signal is bent by the presence of another massive body, another galaxy, between the target and the observer. This effectively results in the magnification of the signal by a factor of 30, allowing the telescope to pick it up," says co-author Nirupam Roy, an Associate Professor in the Department of Physics at the Indian Institute of Science.
According to the researchers, these observations demonstrate the feasibility of using gravitational lensing to observe distant galaxies in similar situations. It also opens up exciting new possibilities for studying the cosmic evolution of stars and galaxies using existing low-frequency radio telescopes.
What is slightly larger than our Moon but nearly 1.4 times the mass of our Sun? ZTF J1901+1458, one of the tiniest white dwarf stars ever discovered. A series of ground- and space-based telescopes observed the dying husk of a sun-like star only 133 light-years away.
In a study published in the journal Nature, researchers detail the discovery and characteristics of ZTF J1901+1458, which is so named because it was spotted by the Zwicky Transient Facility, a sky survey using the Palomar Observatory in California that searches space for any objects with sudden changes in brightness. It’s quite an extreme star.
When stars eight times the mass of our Sun
or smaller reach the end of their lives, white dwarfs form. As they run out of fuel, they begin to collapse; but somewhat paradoxically, this initial collapse causes the star to swell to monstrous sizes and become a red giant (like the famous star Betelgeuse ).
This process also causes the star to cool down slightly and its core contract, which releases a massive amount of energy, causing it to grow even larger. However, it begins to lose its outer layers, leaving only an extremely dense core behind. A white dwarf.
The husk of a blown-out star was what the research team saw in the ZTF records. They used data from the European Space Agency’s Gaia satellite, the Keck telescope in Hawaii, and NASA’s Swift observatory to better understand its characteristics. After analyzing J1901+1458, they realized it was special: It was rapidly rotating and appeared to be nearly as massive as a white dwarf can be.
The researchers believe
the white dwarf was formed by two stars that danced for billions of years. They both evolved into white dwarfs before merging to form the new, much more massive star.
"We caught this very interesting object that wasn’t quite massive enough to explode," said Ilaria Caiazzo, an astrophysicist at Caltech and lead author of the new study, in a press release. "We are truly probing how massive a white dwarf can be."
It has also been described as the smallest white dwarf discovered, but that title might go to another object believed to be a white dwarf, known as RX J0648.0–4418.
So what will happen to the white dwarf now?
"This is highly speculative, but it’s possible that the white dwarf is massive enough to further collapse into a neutron star," said Caiazzo. Usually neutron stars form when huge stars collapse, but it’s speculated that about one in 10 might be formed from the collapse of a white dwarf.
That’s because strange things are happening in a white dwarf’s super-dense core. Caiazzo describes a subatomic process in which electrons are captured and neutrons are formed. As more electrons are removed, the core approaches collapse and eventually becomes a "zombie" neutron star, one of the most unusual and mysterious cosmic bodies in the universe.
LHS 475 b is a rocky exoplanet roughly the same size as Earth that orbits very close to a small, dim star. And for the first time, researchers are able to study the planet’s atmosphere.
The James Webb Space Telescope has discovered its first new exoplanet, LHS 475 b, an Earth-sized rocky planet. The planet, which is only 41 light-years away, orbits very close to a small, dim star, completing a full orbit in just two days.
The discovery, announced at the American Astronomical Society (AAS) meeting on Wednesday, January 11th, is notable because most exoplanets discovered are large gas giants similar to Jupiter. Most telescopes struggle to detect Earth-like planets because they are much smaller, at less than a tenth of the diameter.
The planet orbits very close to a small, dim star
Previous research with NASA’s Transiting Exoplanet Survey Satellite, another space-based telescope launched in 2018 specifically to search for exoplanets, suggested that this system may contain a planetary candidate. Observations made by JWST in August and September 2022 confirmed the planet’s presence.
The fact that JWST detected this planet indicates that it will be able to detect more Earth-like planets in the future. Furthermore, it should be able to detect their atmospheres, which other telescopes are unable to do with planets of this size.
The ultimate goal of much current exoplanet research is to understand the atmospheres of exoplanets. Astronomers must study the atmospheres of planets in order to better understand whether they are habitable, as this can have a significant impact on factors such as surface temperature.
JWST observed two transits of LHS 475 b (in which the planet passes in front of its host star, causing a temporary and very small dip in the star’s brightness), which both confirmed the presence of the planet and allowed the team to calculate its radius.
They also examined its atmosphere using a technique known as transmission spectroscopy, and while they couldn’t confirm what the atmosphere was, they were able to rule out several possibilities. According to the findings, the planet does not have a hydrogen-dominated atmosphere like Jupiter, nor does it have a pure methane atmosphere. It could possibly have a thick carbon dioxide atmosphere like Venus, or it could have no atmosphere at all — having had its atmosphere stripped away by its star.
"Over the next few years, and ultimately decades, the search for life on exoplanets will fundamentally rely on the detailed characterization of exoplanet atmospheres," said lead researcher Jacob Lustig-Yaeger of the Johns Hopkins University Applied Physics Laboratory at the AAS meeting. "And the first step on this journey is simply to detect the presence of exoplanet atmospheres."
Even though JWST should be able to detect exoplanet atmospheres
, the task remains difficult. Because exoplanets are much smaller than stars and reflect much less light, they are rarely directly detected. Instead, astronomers examine host stars for small changes in brightness or motion that indicate the presence of a planet orbiting them.
This summer, the research team plans another JWST observation of the planet, which should help them learn more. And the study demonstrates how effective JWST is for learning about exoplanets:
"Even though we don’t detect an atmosphere in this case, our measurements meet the sensitivity requirements to be able to detect the atmospheres of Earth-sized planets. So it’s a really exciting time," Lustig-Yaeger said. "We’re just starting to scratch the surface of what is possible with JWST."
In the entire Universe, we know of only one planet capable of supporting life. That is the planet Earth. So, when we look for exoplanets that could support life, we look for a rocky exoplanet orbiting a Sun-like star at a distance that is neither too hot nor too cold for liquid water on the surface.
To calculate the likelihood of life elsewhere in the Milky Way, one must first determine how many exoplanets exist that fit this description.
Now, with years of exoplanet-hunting data in the bag, astronomers have made a new calculation and determined there could be as many as 6 billion Earth-like planets orbiting Sun-like stars in the Milky Way.
"My calculations place an upper limit of 0.18 Earth-like planets per G-type star," said astronomer Michelle Kunimoto from the University of British Columbia (UBC) in Canada. (You may remember that Kunimoto discovered a whopping 17 exoplanets in Kepler data quite recently.)
"Estimating how common different kinds of planets are around different stars can provide important constraints on planet formation and evolution theories, and help optimise future missions dedicated to finding exoplanets."
As technology advances, the number of planets discovered outside the Solar System grows by leaps and bounds. We’ve confirmed 5,235 exoplanets so far, and the number is growing.
But that’s a drop in the bucket when you consider how many planets there could be out there. The Milky Way galaxy contains an estimated 100 to 400 billion stars, with approximately 7% of them being G-type main-sequence stars like our Sun.
However, the majority of the exoplanets discovered so far are large gas or ice giants like Jupiter or Neptune. We study the effects of planets on their stars because it is extremely difficult for us to see planets directly due to the enormous distances involved. Smaller, rocky planets, such as Earth and Mars, are more difficult to detect because their effects are much smaller, with a lower signal-to-noise ratio.
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