Standard Model Survives

“The cracks in cosmology were supposed to take a while to appear. But when the James Webb Space Telescope (JWST) opened its lens last spring, extremely distant yet very bright galaxies immediately shone into the telescope’s field of view”

“The galaxies’ apparent distances from Earth suggested that they formed much earlier in the history of the universe than anyone anticipated”

“Doubts swirled, but in December, astronomers confirmed that some of the galaxies are indeed as distant, and therefore as primordial, as they seem. The earliest of those confirmed galaxies shed its light 330 million years after the Big Bang, making it the new record-holder for the earliest known structure in the universe”

“How could stars ignite inside superheated clouds of gas so soon after the Big Bang? How could they hastily weave themselves into such huge gravitationally bound structures?”

“Some researchers and media outlets claimed that the telescope’s observations were breaking the standard model of cosmology — a well-tested set of equations called the lambda cold dark matter, or ΛCDM, model — thrillingly pointing to new cosmic ingredients or governing laws”

“ΛCDM’s predictions aren’t always clear-cut. While dark matter and dark energy are simple, visible matter has complex interactions and behaviors, and nobody knows exactly what went down in the first years after the Big Bang; those frenetic early times must be approximated in computer simulations. The other problem is that it’s hard to tell exactly how far away galaxies are.”

“Brant Robertson, a JADES astronomer at the University of California, Santa Cruz, says the findings show that the early universe changed rapidly in its first billion years, with galaxies evolving 10 times quicker than they do today. It’s similar to how “a hummingbird is a small creature,” he said, “but its heart beats so quickly that it is living kind of a different life than other creatures. The heartbeat of these galaxies is happening on a much more rapid timescale than something the size of the Milky Way.””

“Many other observations are already underway that could change the picture for ΛCDM.”

“the universe currently seems to be expanding faster than ΛCDM predicts for a 13.8-billion-year-old universe”