Space Stories: Voyager 1 Gibberish, Lunar Rovers Underway, and the Largest Digital Camera

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Image (Credit): Artist’s rendering of the Voyager 1 spacecraft. (NASA)

Here are some recent stories of interest.

ScienceAlert: NASA Has Finally Identified The Reason Behind Voyager 1’s Gibberish

For months now, the most distant spacecraft to Earth – Voyager 1 – has been talking gibberish on the interplanetary ‘radio’. The repetitive jumble of 1s and 0s it’s sending back to our planet, 24 billion kilometers (15 billion miles) away, has made no sense to scientists until now. Turns out, officials at NASA just needed to give the oh-so-distant craft a bit of a ‘poke’ to ask it how it was feeling. The system returned a software readout to Earth that scientists have now used to confirm about 3 percent of its memory is corrupted. Which is why turning the FDS on and off didn’t resolve the issue back in November of 2023.

CBS News: 3 Companies Win NASA Contracts to Develop New Artemis Moon Rover Designs

Along with funding the commercial development of new rockets, Artemis moon landers and new spacesuits, NASA is pressing ahead with plans to buy an unpressurized moon rover that can carry astronauts, science payloads — or both — across the rugged terrain of the lunar south pole, officials said Wednesday. The agency announced contract awards to three companies to develop competing designs for a Lunar Terrain Vehicle, or LTV, similar in concept to the rovers that carried the last three Apollo crews across the moon’s surface more than 50 years ago.

NOIRLab: Construction of Largest Digital Camera Ever Built for Astronomy Completed

After two decades of work, scientists and engineers at the Department of Energy’s SLAC National Accelerator Laboratory and their collaborators are celebrating the completion of the LSST Camera. Once mounted on Vera C. Observatory’s Simonyi Survey Telescope, the 3200-megapixel camera will help researchers observe our Universe in unprecedented detail. During its ten-year Legacy Survey of Space and Time, the LSST Camera will generate an enormous trove of data on the southern night sky that researchers will mine for new insights into dark energy, dark matter, the changing night sky, the Milky Way and our Solar System.

Space Quote: The 8 Billion-Year-Old Signal

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Image (Credit): The Australian Square Kilometre Array Pathfinder (ASKAP) radio telescope in Western Australia, which detected the 8 billion-year-old signal. (https://www.icrar.org/)

“We were lucky to be looking at that little spot in the sky for that one millisecond after the eight billion years the pulse had travelled to catch it.”

-Statement by Ryan Shannon, an astrophysicist at Australia’s Swinburne University and co-author of a study describing the signal that was received June 10th last year, as quoted by CBS News. The same article noted that “The pulse was so powerful that — in under a millisecond — it released as much energy as the sun emits over 30 years.”

Space Stories: New Horizon Questions, A Dark Spot on Neptune, and Prioritizing Exoplanets

Posted on by onespaceman2000
Image (Credit): NASA’s New Horizons spacecraft. (NASA/Johns Hopkins University Applied Physics Laboratory/Southwest Research Institute)

Here are some recent stories of interest.

Space.com : “NASA’s New Horizons Mission Faces an Uncertain Future (op-ed)

With its budget being trimmed for 2024, NASA is making some weighty decisions… and one includes drastically trimming New Horizons funds by replacing the current science staff with a new team in an effort to save about $3 million—a rounding error in terms of the planetary science budget...As it stands, New Horizons will exit the Kuiper Belt around 2028 and should continue operating until 2050.

ScienceDaily : “Mysterious Neptune Dark Spot Detected from Earth for the First Time

Using ESO’s Very Large Telescope (VLT), astronomers have observed a large dark spot in Neptune’s atmosphere, with an unexpected smaller bright spot adjacent to it. This is the first time a dark spot on the planet has ever been observed with a telescope on Earth. These occasional features in the blue background of Neptune’s atmosphere are a mystery to astronomers, and the new results provide further clues as to their nature and origin.

Universe Today : “TESS has Found Thousands of Possible Exoplanets: Which Ones Should JWST Study?

We will soon have more than 10,000 worlds where life might be able to survive. It’s an amazing idea, but with so many exoplanets we don’t have the resources to search for life on all of them. So how do we prioritize our search? That’s the focus of a recent paper on the pre-print server arxiv. In it, the team strives to identify the “best in class” candidates for exoplanets that could be further studied by the spectroscopic cameras of the James Webb Space Telescope (JWST). Their list could not only help astronomers find evidence of life but also help us understand the range of atmospheres exoplanets have.

Space Stories: The End of Arecibo, Early Black Holes, and Habitable Red Dwarf Exoplanets

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Image (Credit): Aerial view of the damaged Arecibo Observatory after one of the main cables holding the receiver broke in Arecibo, Puerto Rico, on December 1, 2020. (Photo by Ricardo ARDUENGO / AFP)

Here are some recent stories of interest.

Scientific American : “Arecibo Observatory Shuts Down Its Science

After weathering hurricanes, earthquakes, budget cuts and a pandemic-induced shutdown, the iconic Arecibo Observatory in Puerto Rico closed its doors on 14 August. After its main instrument collapsed two years ago, the site was supposed to shift from carrying out astronomy and other research to being a science education centre. But concrete plans for that have yet to materialize — and funding for current operations has run out. Scientists were disappointed that research would formally halt at the site, but they had hoped to keep some instruments running, both for the students who might use the educational centre and to continue the site’s astronomy legacy. Doubts now swirl, as equipment is taken offline and dismantled, that Arecibo will ever again study the sky.

Quanta Magazine : “JWST Spots Giant Black Holes All Over the Early Universe

In recent months, a torrent of observations of the cosmic smudges has delighted and confounded astronomers…The most straightforward explanation for the tornado-hearted galaxies is that large black holes weighing millions of suns are whipping the gas clouds into a frenzy. That finding is both expected and perplexing. It is expected because JWST was built, in part, to find the ancient objects. They are the ancestors of billion-sun behemoth black holes that seem to appear in the cosmic record inexplicably early. By studying these precursor black holes, such as three record-setting youngsters discovered this year, scientists hope to learn where the first humongous black holes came from and perhaps identify which of two competing theories better describes their formation: Did they grow extremely rapidly, or were they simply born big?

Phys.org : “New Study Suggests Some Exoplanets Orbiting Red Dwarfs May be Habitable After All

A team of astrophysicists from the University of Bordeaux and Observatoire Astronomique de l’Université de Genève is suggesting that some exoplanets may not have been too hot during their formative years to harbor life today. In their paper published in the journal Nature, the group suggests that due to factors not considered in the past, some exoplanets may not have grown so hot that they lost the water in their atmospheres to evaporation into space.

A Day in Astronomy: The Beginning of Radio Astronomy

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Image (Credit): Karl G. Jansky Very Large Array in New Mexico. (NRAO)

On this day in 1933, American physicist and radio engineer Karl Guthe Jansky created the science of radio astronomy by publishing “”Radio Waves From Outside the Solar System” discussing his discovery that radio waves were emanating from the center of the Milky Way galaxy.

Unfortunately, Mr. Jansky was not a trained astronomer, so he was not in a position to develop the field of radio astronomy. He then died at the age of 44, which denied his the chance to earn a Nobel Prize for his finding, though he was nominated for the 1948 Nobel Prize in Physics.

Fortunately, the National Radio Astronomy Observatory’s (NRAO) Very Large Array was later rededicated as the “Karl G. Jansky Very Large Array,” an appropriate gesture to remember his incredible contribution to astronomy.

You can read more about Mr Jansky on this NRAO history page.