I would love it if publications could just limit their headlines to one misleading term per story. The rocks are a 'city'? Sure. The geysers looks like 'spiders'? I guess. But when you start putting them together in the same headline it feels like your breaking the fourth wall or something
I used to think this idea was kinda silly and based on flimsy and handwavey justification, but then I saw a colloquium by a famous black hole physicist on it. Now I REALLY think this idea is silly and made up!
Oh! They don't mean that black holes must come in perfect pairs! The headline makes it sound like it's about wormholes across vast distances. No! What they've found is a stable "orbit" solution for the two-body problem. Normally when you place two bodies anywhere in an empty universe, they will gravitate towards each other until they collide. But in a universe with dark energy, there is some perfect distance between them, where the accelerating expansion perfectly counterbalances the accelerating attraction. They've used general relativity math to actually calculate such an arrangement.
The "stable" orbit in this case is the same kind of stable as a pencil balanced on its sharp tip - if it tilts even slightly one way it will fall out of control. Although they tantalize the idea that they might be able to make it truly stable against small perturbations once they finish their spinning black hole solution.
I would like to have known some specific numbers examples! Like if you have as much dark energy as our universe, and two 10-solar-masses stellar black holes, how far apart would that be? Is it like 1Ly or 1MLy? How far for two 10-million-solar masses supermassive black holes? The formulas they created should give the exact answer but I am not skilled enough to substitute the correct numbers for the letters.
in the first year of observations as part of the JWST Advanced Deep Extragalactic Survey (JADES), we found many hundreds of candidate galaxies from the first 650 million years after the big bang. In early 2023, we discovered a galaxy in our data that had strong evidence of being above a redshift of 14, which was very exciting, but there were some properties of the source that made us wary
In January 2024, NIRSpec observed this galaxy, JADES-GS-z14-0, for almost ten hours, and when the spectrum was first processed, there was unambiguous evidence that the galaxy was indeed at a redshift of 14.32, shattering the previous most-distant galaxy record
The image shows an area of sand dunes on Mars in the springtime, when carbon dioxide frost is sublimating into the air.
According to NASA, the pattern of dark spots is due to the fact that the sublimation process is not uniform.
Captured by the HiRISE camera on board the spacecraft, this image has been color-enhanced to draw out some of these features.
This orbiter is a pretty amazing little spacecraft, as it's been flying around Mars since March 2006 and operating for nearly two decades.
NASA is looking into commercial options for a replacement, as the spacecraft performs both essential observation functions and serves as a communications relay.
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