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Science

Amateur astronomers took a picture of the first supernova in a galaxy 22 million light-years away

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Not long after one of the closest supernovae of the century was found, another one just a little farther away has shown up. Professional pictures of the star exploding have not been released yet, but amateur pictures are filling in the gaps. However, many of the amateurs live too far north to be able to take part.

Since the invention of the telescope, there haven’t been any supernova explosions in our galaxy, though there might be some that are dust-obscured. Adding 1987a to our local group of galaxies is the only one that astronomers have seen in their entire careers. That’s a shame, because these are some of the coolest and most useful astronomical events, and a galaxy the size of the Milky Way should have one about every hundred years.

That makes the next ring of galaxies beyond the local group even more important. This century, there have been five galaxies that are 22 million light-years away or less. This new one, SN 2024ggi, was seen for the first time on April 11 and may still be getting brighter.

Last year, small telescopes were able to see the most recent nearby supernova, 2023xf. As an added bonus, it was in the Pinwheel galaxy, which is always a popular place for amateur astronomers to look.

SN 2024ggi is in NGC 3621, which isn’t quite as impressive because we see it all the way along one edge. Even so, if you have a good enough telescope, it’s still a beautiful sight. NGC 3621 is 22 million light-years away, which is a million more than the Pinwheel. However, these numbers aren’t exactly accurate, so it’s possible that it’s a little closer. Both are going almost the opposite way. The pinwheel is so far to the north that it never sets in Europe or most of North America. While NGC 3621 is at 33 degrees south, it’s almost impossible to see from Britain and can only be seen for a short time from most of the US.

Magnitude is a measure of how bright a star is. Magnitudes 5 and below can be seen with the naked eye in dark skies, while magnitudes above 5 get fainter.

ATLAS, which stands for the Asteroid Terrestrial-Impact Last Alert System, made the new find. ATLAS’ main job is to look for space rocks close by. With four telescopes on three continents, it now finds more supernovae than any other sky survey. When it was found, SN 2024ggi was about 19th magnitude, which means that backyard astronomers would need a very large telescope.

That’s not unusual; just this year, dozens of supernovae were recorded at 16th or 14th magnitude. However, because they were so far away, very few got brighter than that. At the same brightness, 2023ixf was seen, but it got brighter by more than a hundred times and reached its brightest point at 10.9. It has gone down to 12th magnitude after almost a year.

Many people say that 2024 g is brighter than a 12th magnitude star nearby, even though official records show that it is getting brighter to 14th magnitude. There would be a lot more people with the right tools to catch it if that’s the case.

Five supernovae have been seen in the Pinwheel galaxy since 1900 because it is so busy making new stars. This is the first supernova seen in NGC 3621.

As Editor here at GeekReply, I'm a big fan of all things Geeky. Most of my contributions to the site are technology related, but I'm also a big fan of video games. My genres of choice include RPGs, MMOs, Grand Strategy, and Simulation. If I'm not chasing after the latest gear on my MMO of choice, I'm here at GeekReply reporting on the latest in Geek culture.

Engineering

Testing the longest quantum network on existing fiber optics in Boston

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Imagine a world where information can be transmitted securely across the globe, free from the prying eyes of hackers. Its incredible power lies in the realm of quantum mechanics, making it a groundbreaking advancement with immense potential for the future of telecommunications. There have been obstacles to conquer, but there has also been notable progress, exemplified by a recent achievement from researchers at Harvard University.

Using the existing fiber optics within the city of Boston, the team successfully demonstrated the longest transmission between two nodes. The fiber path covered a total distance of 35 kilometers (22 miles), encircling the entire city. The two nodes that connected to the close path were situated on different floors, making the fiber route not the shortest but rather an intriguing one.

Quantum information has been successfully transmitted over longer distances, showcasing remarkable advancements in this experiment that bring us closer to the realization of a practical quantum internet. The real breakthrough lies in the nodes, going beyond the mere utilization of optical fibers.

A typical network utilizes signal repeaters made of optical fiber. These devices incorporate optical receivers, electrical amplifiers, and optical transmitters. The signal is received, transformed into an electrical form, and subsequently converted back into light before being transmitted. They play a crucial role in expanding the reach of the original signal. And in its present state, this is not suitable for quantum internet.

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The issue lies not in the technology, but rather in the fundamental principles of physics. Copying quantum information is not possible in that manner. Quantum information is highly secure due to its entangled state. The Harvard system operates by utilizing individual nodes that function as miniature quantum computers, responsible for storing, processing, and transferring information. This quantum network, consisting of only two nodes, is currently the most extensive one ever achieved, with nodes capable of such remarkable functionality.

“Demonstrating the ability to entangle quantum network nodes in a bustling urban environment is a significant milestone in enabling practical networking between quantum computers,” stated Professor Mikhail Lukin, the senior author.

At each node, a tiny quantum computer is constructed using a small piece of diamond that contains a flaw in its atomic arrangement known as a silicon vacancy center. At temperatures close to absolute zero, the silicon vacancy has the remarkable ability to capture, retain, and interconnect pieces of data, making it an ideal choice for a node.

“Given the existing entanglement between the light and the first node, it has the capability to transmit this entanglement to the second node,” elucidated Can Knaut, a graduate researcher in Lukin’s lab. “This phenomenon is known as photon-mediated entanglement.”

The study has been published in the prestigious journal Nature.

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Astronomy

NASA’s flyby of Europa shows that “something” is moving under the ice

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Europa’s surface has marks that show the icy crust is vulnerable to the water below. The most important thing is that Juno’s recent visit shows what might be plume activity. If this is real, it would let future missions take samples of the ocean inside the planet without having to land.

Even though it’s been almost two years since Juno got the closest to Europa, its data is still being looked at. Even though Juno has been going around Jupiter since 2016, the five pictures it took on September 29, 2022, were the closest views of Europa since Galileo’s last visit in 2000.

Some might say that’s a shocking lack of interest in one of the Solar System’s most interesting worlds, but it could also have been a good way to see how things had changed over time.

Europa is the smoothest object in the solar system because its ocean keeps it from sinking to the surface. Still, it’s not featureless; Juno saw some deep depressions with steep walls that are 20 to 50 kilometers (12 to 31 miles) wide, as well as fracture patterns that are thought to show “true polar wander.

In a statement, Dr. Candy Hansen of the Planetary Science Institute said, “True polar wander occurs if Europa’s icy shell is separated from its rocky interior. This puts a lot of stress on the shell, which causes it to break in predictable ways.”

The shell that sits on top of Europa’s ocean is thought to be rotating faster than the rest of the moon. This is what true polar wandering means. People think that the water below is moving and pulling the shell along with it. Ocean currents are thought to be causing this. The currents are most likely a result of heat inside Europa’s rocky core, which is heated up as a result of Jupiter and its larger moons pulling on Europa and turning it into a large stress ball.

The ocean and ice could stretch and compress parts of the ice, which is how the cracks and ridges that have been seen since Voyager 2 visited were made.

A group under the direction of Hansen is viewing images of Europa’s southern half. The scientist said, “This is the first time that these fracture patterns have been mapped in the southern hemisphere. This suggests that true polar wander has a bigger effect on Europa’s surface geology than was thought before.”

Ocean currents are not to blame for all of Europa’s map changes. It appears that optical tricks can even fool NASA. Hansen said, “Crater Gwern is no longer there.” “JunoCam data showed that Gwern, which was once thought to be a 13-mile-wide impact crater and one of Europa’s few known impact craters, was actually a group of ridges that crossed each other to make an oval shadow.”

But Juno gives more than it takes away. The team is interested in what they’re calling the Platypus because of its shape, not because it has a lot of parts that shouldn’t go together. Ridges on its edge look like they are collapsing into it. The scientists think this might be because pockets of salt water have partially broken through the icy shell.

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The Europa Clipper would find these pockets to be fascinating indirect targets for study, but the dark stains that cryovolcanic activity might have left behind are even more intriguing.

“These features suggest the possibility of current surface activity and the existence of liquid water beneath the surface on Europa,” stated Heidi Becker from the Jet Propulsion Laboratory. There is evidence of such activity in the geysers of Enceladus, but there is still uncertainty regarding whether it is currently happening on Europa.

Engaging in such an endeavor would enable the sampling of the interior ocean to detect signs of life simply by flying through a plume and gathering ice flakes without the need for landing or drilling.

It seems that in the past, there was a significant shift of over 70 degrees in the locations of features on Europa’s surface, although the reasons for this remain unknown. However, at present, polar wander only leads to minor adjustments.

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Bionics

A new syndrome linked to COVID that could be fatal has appeared

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There is a new outbreak of a rare but deadly autoimmune disorder in the north of England. New research suggests that the outbreak may be linked to COVID-19. Anti-MDA5-positive dermatomyositis is the name of the disease. It was mostly found in Asian people before the pandemic, but now it’s becoming more common among white people in Yorkshire.

Antibodies that target the MDA5 (melanoma differentiation-associated protein 5) enzyme are what cause the illness. It is linked to progressive interstitial lung disease, which scars lung tissue. Between 2020 and 2022, doctors in Yorkshire reported 60 cases of MDA5 autoimmunity, which was the highest number ever. Eight people died as a result.

What the researchers found when they looked at this sudden rise in cases is that it happened at the same time as the main waves of COVID-19 infections during the pandemic’s peak years. This caught their attention right away because MDA5 is an RNA receptor that is very important for finding the SARS-CoV-2 virus.

The study authors write, “This is to report a rise in the rate of anti-MDA5 positivity testing in our region (Yorkshire) in the second year of the COVID-19 pandemic. This was noteworthy because this entity is not commonly found in the UK.” They say this is likely a sign of “a distinct form of MDA5+ disease in the COVID-19 era.” They have named it “MDA5-autoimmunity and Interstitial Pneumonitis Contemporaneous with COVID-19” (MIP-C).

The researchers used tools that look for shared traits among people in the same medical cohort to figure out how this newly discovered symptom works. In this way, they found that people who had MDA5 autoimmunity also tended to have high levels of interleukin-15 (IL-15), a cytokine that causes inflammation.

The author of the study, Pradipta Ghosh, said in a statement that IL-15 “can push cells to the brink of exhaustion and create an immunologic phenotype that is very, very often seen as a hallmark of progressive interstitial lung disease, or fibrosis of the lung.”

Overall, only eight of the 60 patients had tested positive for COVID-19 before. This means that a lot of them may have had infections that didn’t cause any symptoms that they weren’t aware of. This means that even mild infections with no early symptoms might be enough to cause MDA5 autoimmunity.

The researchers say, “Given that the highest number of positive MDA5 tests happened after the highest number of COVID-19 cases in 2021 and at the same time as the highest number of vaccinations, these results suggest an immune reaction or autoimmunity against MDA5 after exposure to SARS-CoV-2 and/or vaccines.”

Ghosh says that the event probably isn’t just happening in Yorkshire. Reports on MIP-C are now coming in from all over the world.

The study was written up in the eBioMedicine journal.

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