An international team led by the University of Oxford has identified one of the largest rotating structures ever reported: a “razor-thin” string of galaxies embedded in a giant spinning cosmic filament, 140 million light-years away. The findings, published today (4 December) in Monthly Notices of the Royal Astronomical Society, could offer valuable new insights into how galaxies formed in the early Universe.
This discussion belongs to the Impacts of Large Satellite Constellations on Astronomy thread.And this is nothing serious, just boost your telescope to 1,200km or slightly above it and you avoid nearly all constellations. 1,200km is still LEO.
"Space-based astronomy is the future, ground-based is unnecessary anyway" was the motto by megaconstellation proponents right? I guess the new directive is to add "Deep-space-based ONLY", or just get done with it and take away all qualifiers: "Astronomy is unnecessary anyway".
Quote from: thespacecow on 12/05/2025 12:59 amThis discussion belongs to the Impacts of Large Satellite Constellations on Astronomy thread.And this is nothing serious, just boost your telescope to 1,200km or slightly above it and you avoid nearly all constellations. 1,200km is still LEO."Just boost me up already Scotty" Or, as the wise man said: "We need more wood! Timber!"Spot on prediction (then again, it wasn't hard):Quote from: eeergo on 12/04/2025 07:37 am"Space-based astronomy is the future, ground-based is unnecessary anyway" was the motto by megaconstellation proponents right? I guess the new directive is to add "Deep-space-based ONLY", or just get done with it and take away all qualifiers: "Astronomy is unnecessary anyway".
I'd have another easy one-liner solution too! And it also involving less boosting: instead of going up by 700 km or so, just de-boost your constellation 500 km down or so, and you avoid all sky nastiness with increased direct serviceability and virtually unlimited mission duration. Nothing serious.
Quote from: eeergo on 12/05/2025 11:27 amQuote from: thespacecow on 12/05/2025 12:59 amThis discussion belongs to the Impacts of Large Satellite Constellations on Astronomy thread.And this is nothing serious, just boost your telescope to 1,200km or slightly above it and you avoid nearly all constellations. 1,200km is still LEO."Just boost me up already Scotty" Or, as the wise man said: "We need more wood! Timber!"Spot on prediction (then again, it wasn't hard):Quote from: eeergo on 12/04/2025 07:37 am"Space-based astronomy is the future, ground-based is unnecessary anyway" was the motto by megaconstellation proponents right? I guess the new directive is to add "Deep-space-based ONLY", or just get done with it and take away all qualifiers: "Astronomy is unnecessary anyway".Not "spot on" at all. 1,200km is not "Deep-space", as I said, it's literally LEO.Quote from: eeergoI'd have another easy one-liner solution too! And it also involving less boosting: instead of going up by 700 km or so, just de-boost your constellation 500 km down or so, and you avoid all sky nastiness with increased direct serviceability and virtually unlimited mission duration. Nothing serious.Dream on, mega constellation is here to stay, they have already proven their value, and the value is far far higher than some space telescope that refuses to boost higher. In fact literally every country with space telescopes that is affected by this are also building their own mega constellation, nobody is going to make a big deal about this, rocks and glass houses and all that.
Quote from: eeergo on 12/05/2025 11:27 am"Just boost me up already Scotty" Or, as the wise man said: "We need more wood! Timber!"Spot on prediction (then again, it wasn't hard):Quote from: eeergo on 12/04/2025 07:37 am"Space-based astronomy is the future, ground-based is unnecessary anyway" was the motto by megaconstellation proponents right? I guess the new directive is to add "Deep-space-based ONLY", or just get done with it and take away all qualifiers: "Astronomy is unnecessary anyway".Not "spot on" at all. 1,200km is not "Deep-space", as I said, it's literally LEO.
"Just boost me up already Scotty" Or, as the wise man said: "We need more wood! Timber!"Spot on prediction (then again, it wasn't hard):Quote from: eeergo on 12/04/2025 07:37 am"Space-based astronomy is the future, ground-based is unnecessary anyway" was the motto by megaconstellation proponents right? I guess the new directive is to add "Deep-space-based ONLY", or just get done with it and take away all qualifiers: "Astronomy is unnecessary anyway".
Dream on, mega constellation is here to stay, they have already proven their value, and the value is far far higher than some space telescope that refuses to boost higher. In fact literally every country with space telescopes that is affected by this are also building their own mega constellation, nobody is going to make a big deal about this, rocks and glass houses and all that.
I love the way you immediately default to saying that space telescopes value is far lower than mega constellations. On what metric are you working that out?
Also it seems increasingly likely from studies that the vast number of satellites re-entering the atmosphere from these constellations and the pollutants that pumps into the atmosphere contributes to damaging the ozone layer amongst other damage.https://theconversation.com/thousands-of-satellites-are-due-to-burn-up-in-the-atmosphere-every-year-damaging-the-ozone-layer-and-changing-the-climate-251845#:~:text=The%20re%2Dentry%20of%20satellites,'%20in%20this%20time%2Dlapse.https://agupubs.onlinelibrary.wiley.com/doi/pdf/10.1029/2024GL109280
Quote from: thespacecow on 12/06/2025 03:13 amQuote from: eeergo on 12/05/2025 11:27 am"Just boost me up already Scotty" Or, as the wise man said: "We need more wood! Timber!"Spot on prediction (then again, it wasn't hard):Quote from: eeergo on 12/04/2025 07:37 am"Space-based astronomy is the future, ground-based is unnecessary anyway" was the motto by megaconstellation proponents right? I guess the new directive is to add "Deep-space-based ONLY", or just get done with it and take away all qualifiers: "Astronomy is unnecessary anyway".Not "spot on" at all. 1,200km is not "Deep-space", as I said, it's literally LEO.I trust other more attentive (or just not self-deceiving) readers will appreciate the drift without resorting to extreme literalism.
QuoteDream on, mega constellation is here to stay, they have already proven their value, and the value is far far higher than some space telescope that refuses to boost higher. In fact literally every country with space telescopes that is affected by this are also building their own mega constellation, nobody is going to make a big deal about this, rocks and glass houses and all that.Funny how all of this business is so stone-cast, solid, established and unbreakable, yet proponents always find the need to forcefully, rabidly defensively underline its inevitability, especially after close to a decade of work on it - moreover in every occasion they get, in venues completely unrelated to their interests: such as this Astronomy thread in the Science topic. I wouldn't expect a sane Internet enthusiast back in the day to come out of the woodwork in a gardening forum where people complain about dot-com enterprises ripping out their front yard to install cables, yelling around "the future is nigh, all heathens repent, networks are inevitable". Actually, it would only reek of giant-with-mud-feet inferiority.
Of course, this only applies for A CERTAIN company's business, while the business itself could be anything and everything. Of course, all others attempting this are either doomed to fail or inconsequential, because of this funny little quirk you will not believe.
Just as an aside, another stone-chiseled, future-heralding, trust-me-bro business by a very respectful and established company has just been announced to be imploding, after $77B have been poured, or should I say fire-torched, into it. This is about twice as much as the sum of EVERY robotic space probe, ever, by the way. Yet another win for today's leaders with definitely eagle-eyed visions.
Just a factual addendum: no, not "every country with space telescopes affected by this is building their own megaconstellation", at least if you are not anumerical and don't consider a tens-to-hundreds-of-satellite constellation equivalent to one with tens-to-hundreds-of-thousands. Kinda similar to expecting nobody to make a fuss about Amazon deforestation when "every country with trees affected by climate change is using timber".
Nearly 4.5 million years ago, two large, hot stars brushed tantalizingly close to Earth’s sun. They left behind a trace in the clouds of gas and dust that swirl just beyond our solar system—almost like the scent of perfume after someone has left the room.
"Based on our most recent work, we suggest that the previously reported tentative hint of an atmosphere is more likely to be 'noise' from the host star," Ranjan said. "However, this does not mean that TRAPPIST-1e does not have an atmosphere – we just need more data."Ranjan pointed out that while James Webb is revolutionizing exoplanet science, the telescope was not originally designed to study small, Earth-like exoplanets."It was designed long before we knew such worlds existed, and we are fortunate that it can study them at all," he said. "There is only a handful of Earth-sized planets in existence for which it could potentially ever measure any kind of detailed atmosphere composition."New answers could come from NASA's Pandora mission, currently in development and slated for launch in early 2026. Led by Daniel Apai, professor of astronomy and planetary sciences at the U of A Steward Observatory, Pandora is a small satellite designed to characterize exoplanet atmospheres and their host stars. Pandora will monitor stars with potentially habitable planets before, during and after they transit in front of their host stars.
NASA’s James Webb Space Telescope has observed a supernova that exploded when the universe was only 730 million years old — the earliest detection of its kind to date. Webb’s crisp near-infrared images also allowed astronomers to locate the supernova’s faint host galaxy. The telescope took these quick-turn observations July 1 in support of an international group of telescopes that detected a super bright flash of light known as a gamma-ray burst in mid-March.
Leading X-ray space telescopes XMM-Newton and XRISM have spotted an extraordinary blast from a supermassive black hole. In a matter of hours, the gravitational monster whipped up powerful winds, flinging material out into space at eye-watering speeds of 60 000 km per second.
Data acquired with multiple NSF NOIRLab facilities indicate gamma-ray burst lasting over seven hours resides in a massive, extremely dusty galaxy
Super-Jupiters have masses a dozen times that of Jupiter, but they are often illustrated as having a very Jupiter-like appearance. A new study finds that the classic banded-cloud look of Jupiter is very different from the look of the largest worlds.
The planets in the Solar System are typically divided into three categories based on their composition: the four terrestrial rocky planets (Mercury, Venus, Earth and Mars), followed by the two gas giants (Jupiter and Saturn), and finally two ice giants (Uranus and Neptune). According to the work carried by the UZH scientific team, Uranus and Neptune might actually be more rocky than icy. The new study does not claim the two blue planets to be one or the other type, water- or rock- rich, it rather challenges that ice-rich is the only possibility. This interpretation is also consistent with the discovery that the dwarf planet Pluto is rock-dominated in composition.
For two decades, astronomers have puzzled over how supermassive black holes – some of the brightest objects in the universe – could exist less than a billion years after the Big Bang. Normal stars simply couldn't create such massive black holes quickly enough. Now, using the James Webb Space Telescope (JWST), an international team has found the first compelling evidence that solves this cosmic mystery: “monster stars” weighing between 1,000 and 10,000 times the mass of our Sun existed in the early universe.
Like a toddler right before naptime, TRAPPIST-1 is a small yet moody star. This little star, which sits in the constellation Aquarius about 40 light-years from Earth, spits out bursts of energy known as “flares” about six times a day. New research led by the University of Colorado Boulder takes the deepest look yet at the physics behind TRAPPIST-1’s celestial temper tantrums. The team’s findings could help scientists search for habitable planets beyond Earth’s solar system.
Two new stars, or nova eruptions, have been resolved in unprecedented detail by six optical telescopes operating in unison as an interferometer.
A strange, spider-like scar on Jupiter's icy moon Europa may mark where salty water once surged up through its fractured crust.
QuoteA strange, spider-like scar on Jupiter's icy moon Europa may mark where salty water once surged up through its fractured crust.
