Posted on 04/29/2020 2:39:05 AM PDT by LibWhacker
New findings suggest laws of nature 'downright weird,' not as constant as previously thought by Lachlan Gilbert, University of New South Wales
Scientists examining the light from one of the furthermost quasars in the universe were astonished to find fluctuations in the electromagnetic force. Credit: Shutterstock Not only does a universal constant seem annoyingly inconstant at the outer fringes of the cosmos, it occurs in only one direction, which is downright weird.
Those looking forward to a day when science's Grand Unifying Theory of Everything could be worn on a t-shirt may have to wait a little longer as astrophysicists continue to find hints that one of the cosmological constants is not so constant after all.
In a paper published in Science Advances, scientists from UNSW Sydney reported that four new measurements of light emitted from a quasar 13 billion light years away reaffirm past studies that found tiny variations in the fine structure constant.
UNSW Science's Professor John Webb says the fine structure constant is a measure of electromagnetismone of the four fundamental forces in nature (the others are gravity, weak nuclear force and strong nuclear force).
"The fine structure constant is the quantity that physicists use as a measure of the strength of the electromagnetic force," Professor Webb says.
"It's a dimensionless number and it involves the speed of light, something called Planck's constant and the electron charge, and it's a ratio of those things. And it's the number that physicists use to measure the strength of the electromagnetic force."
The electromagnetic force keeps electrons whizzing around a nucleus in every atom of the universewithout it, all matter would fly apart. Up until recently, it was believed to be an unchanging force throughout time and space. But over the last two decades, Professor Webb has noticed anomalies in the fine structure constant whereby electromagnetic force measured in one particular direction of the universe seems ever so slightly different.
"We found a hint that that number of the fine structure constant was different in certain regions of the universe. Not just as a function of time, but actually also in direction in the universe, which is really quite odd if it's correct ... but that's what we found."
Looking for clues
Ever the sceptic, when Professor Webb first came across these early signs of slightly weaker and stronger measurements of the electromagnetic force, he thought it could be a fault of the equipment, or of his calculations or some other error that had led to the unusual readings. It was while looking at some of the most distant quasarsmassive celestial bodies emitting exceptionally high energyat the edges of the universe that these anomalies were first observed using the world's most powerful telescopes.
"The most distant quasars that we know of are about 12 to 13 billion light years from us," Professor Webb says.
"So if you can study the light in detail from distant quasars, you're studying the properties of the universe as it was when it was in its infancy, only a billion years old. The universe then was very, very different. No galaxies existed, the early stars had formed but there was certainly not the same population of stars that we see today. And there were no planets."
He says that in the current study, the team looked at one such quasar that enabled them to probe back to when the universe was only a billion years old which had never been done before. The team made four measurements of the fine constant along the one line of sight to this quasar. Individually, the four measurements didn't provide any conclusive answer as to whether or not there were perceptible changes in the electromagnetic force. However, when combined with lots of other measurements between us and distant quasars made by other scientists and unrelated to this study, the differences in the fine structure constant became evident.
A weird universe
"And it seems to be supporting this idea that there could be a directionality in the universe, which is very weird indeed," Professor Webb says.
"So the universe may not be isotropic in its laws of physicsone that is the same, statistically, in all directions. But in fact, there could be some direction or preferred direction in the universe where the laws of physics change, but not in the perpendicular direction. In other words, the universe in some sense, has a dipole structure to it.
"In one particular direction, we can look back 12 billion light years and measure electromagnetism when the universe was very young. Putting all the data together, electromagnetism seems to gradually increase the further we look, while towards the opposite direction, it gradually decreases. In other directions in the cosmos, the fine structure constant remains just thatconstant. These new very distant measurements have pushed our observations further than has ever been reached before."
In other words, in what was thought to be an arbitrarily random spread of galaxies, quasars, black holes, stars, gas clouds and planetswith life flourishing in at least one tiny niche of itthe universe suddenly appears to have the equivalent of a north and a south. Professor Webb is still open to the idea that somehow these measurements made at different stages using different technologies and from different locations on Earth are actually a massive coincidence.
"This is something that is taken very seriously and is regarded, quite correctly with scepticism, even by me, even though I did the first work on it with my students. But it's something you've got to test because it's possible we do live in a weird universe."
But adding to the side of the argument that says these findings are more than just coincidence, a team in the US working completely independently and unknown to Professor Webb's, made observations about X-rays that seemed to align with the idea that the universe has some sort of directionality.
"I didn't know anything about this paper until it appeared in the literature," he says.
"And they're not testing the laws of physics, they're testing the properties, the X-ray properties of galaxies and clusters of galaxies and cosmological distances from Earth. They also found that the properties of the universe in this sense are not isotropic and there's a preferred direction. And lo and behold, their direction coincides with ours."
Life, the universe and everything
While still wanting to see more rigorous testing of ideas that electromagnetism may fluctuate in certain areas of the universe to give it a form of directionality, Professor Webb says if these findings continue to be confirmed, they may help explain why our universe is the way it is, and why there is life in it at all.
"For a long time, it has been thought that the laws of nature appear perfectly tuned to set the conditions for life to flourish. The strength of the electromagnetic force is one of those quantities. If it were only a few percent different to the value we measure on Earth, the chemical evolution of the universe would be completely different and life may never have got going. It raises a tantalising question: does this "Goldilocks' situation, where fundamental physical quantities like the fine structure constant are 'just right' to favour our existence, apply throughout the entire universe?"
If there is a directionality in the universe, Professor Webb argues, and if electromagnetism is shown to be very slightly different in certain regions of the cosmos, the most fundamental concepts underpinning much of modern physics will need revision.
"Our standard model of cosmology is based on an isotropic universe, one that is the same, statistically, in all directions," he says.
"That standard model itself is built upon Einstein's theory of gravity, which itself explicitly assumes constancy of the laws of Nature. If such fundamental principles turn out to be only good approximations, the doors are open to some very exciting, new ideas in physics."
Professor Webb's team believe this is the first step towards a far larger study exploring many directions in the universe, using data coming from new instruments on the world's largest telescopes. New technologies are now emerging to provide higher quality data, and new artificial intelligence analysis methods will help to automate measurements and carry them out more rapidly and with greater precision
Says a lot about us being in a sweet spot and maybe not by accident but on purpose
Things are far more complex than science believes.
Science tries to reduce things to simplicity, but that is not reality.
When the human genome was mapped, they were astonished to find an insufficient number of combinations to account for human variability.
This is why climate science basing everything on CO2 is a failure. It is far more complex a system than how the frauds make it out to be.
The weak needs to step up its game. Try CrossFit or HIIT.
If there is a directionality to the universe, does this explain, or correlate with, why time flows, or appears to flow, in one direction only?
The fault, dear Brutus, is not in our stars / But in ourselves”
Time flowing in one direction is probably an illusion...
People who don’t know jack shit about Nature really don’t get to call anything “weird”.
Cosmos electric
Just when we think we have it all figgered out the aliens thrown a wrench into it. Next we’ll find that Pi really isn’t.
So the Universe isnt so much a Big Bang but more of a Western Union Telegram? Kurt Vonnegut was right?
In a paper published in Science Advances, scientists from UNSW Sydney reported that four new measurements of light emitted from a quasar 13 billion light years away reaffirm past studies that found tiny variations in the fine structure constant.
...
Tiny deviations and unverified, but that won’t stop the kooks from claiming that their crazy idea is right.
If there is a directionality in the universe, Professor Webb argues, and if electromagnetism is shown to be very slightly different in certain regions of the cosmos, the most fundamental concepts underpinning much of modern physics will need revision.
“Our standard model of cosmology is based on an isotropic universe, one that is the same, statistically, in all directions,” he says.
...
The big deal is directionality.
But adding to the side of the argument that says these findings are more than just coincidence, a team in the US working completely independently and unknown to Professor Webb’s, made observations about X-rays that seemed to align with the idea that the universe has some sort of directionality.
“I didn’t know anything about this paper until it appeared in the literature,” he says.
“And they’re not testing the laws of physics, they’re testing the properties, the X-ray properties of galaxies and clusters of galaxies and cosmological distances from Earth. They also found that the properties of the universe in this sense are not isotropic and there’s a preferred direction. And lo and behold, their direction coincides with ours.”
...
I wonder if the observations in the article coincide with the Axis of Evil.
https://en.wikipedia.org/wiki/Axis_of_evil_(cosmology)
LOL, your tagline is brilliant, GOPJ! (Was misery & death worth the four bucks saved on the crappy waffle-iron 'made in China?) * * * As to the question of time flowing in multiple directions. Isn't Time itself but a human construct -- an electronic or analog "ticking" wrapper for a series of sequential events? Can we really alter the sequence of a past event? Similarly, can't we say that Distance is like overlaying a fisherman's net (or grid) over a map? Ah, but does the grid actually exist? Can we warp the grid to such a degree that the uninhabited and volcanic Antipodes Islands, south of New Zealand, would lie right outside their antipode near London? If we could, then there's great danger living in La Rioja, Argentina, because if you dug straight down through the Earth from there, you will have dug a hole to China -- Wuhan City, China to be precise! Where's my Antipode? Check it out here. |
LOL - glad you like the tag - thanks pundit
fyi
https://getpocket.com/explore/item/are-we-living-in-a-computer-simulation?utm_source=pocket-newtab
Furthermore, ideas from information theory keep showing up in physics. In my research I found this very strange thing, said James Gates, a theoretical physicist at the University of Maryland. I was driven to error-correcting codestheyre what make browsers work. So why were they in the equations I was studying about quarks and electrons and supersymmetry? This brought me to the stark realization that I could no longer say people like Max are crazy.
All rivers bleed into one.
When scientists call something weird it means that their theories are inadequate, but that they cling fast to their theories and cannot accept any other explanation.
The Universe works, and it’s foolish to think that any human can understand it fully.
With the passage of time, it's an illusion I increasingly want to shake.
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