http://www.newscientist.com/article...th-glimpse-of-big-bang-ripples.html?full=true
So thanks to this discovery the multiverse would exist and it would solve the problem of what came before. As inflation is eternal. Or the notion of inflation is wrong because what we see vs what we expected are vastly different.
Ha this is great and so interesting.
Wave hello to the multiverse? Ripples in the very fabric of the cosmos, unveiled this week, are allowing us to peer further back in time than anyone thought possible, showing us what was happening in the first slivers of a second after the big bang.
The discovery of these primordial waves could solidify the idea that our young universe went through a rapid growth spurt called inflation. And that theory is linked to the idea that the universe is constantly giving birth to smaller "pocket" universes within an ever-expanding multiverse.
The waves in question are called gravitational waves, and they appear in Einstein's highly successful theory of general relativity. On 17 March, scientists working with the BICEP2 telescope in Antarctica announced the first indirect detection of primordial gravitational waves. This version of the ripples was predicted to be visible in maps of the cosmic microwave background (CMB), the earliest light emitted in the universe, roughly 380,000 years after the big bang.
"If confirmed, this result would constitute the most important breakthrough in cosmology over the past 15 years. It will open a new window into the beginning of our universe and have fundamental implications for extensions of the standard model of physics," says Avi Loeb at Harvard University. "If it is real, the signal will likely lead to a Nobel prize."
And for some theorists, simply proving that inflation happened at all would be a sign of the multiverse.
"If inflation is there, the multiverse is there," said Andrei Linde of Stanford University in California, who is not on the BICEP2 team and is one of the originators of inflationary theory. "Each observation that brings better credence to inflation brings us closer to establishing that the multiverse is real."
The simplest models of inflation, which the BICEP2 results seem to support, require a particle called an inflaton to push space-time apart at high speed.
"Inflation depends on a kind of material that turns gravity on its head and causes it to be repulsive," says Alan Guth at the Massachusetts Institute of Technology, another author of inflationary theory. Theory says the inflaton particle decays over time like a radioactive element, so for inflation to work, these hypothetical particles would need to last longer than the period of inflation itself. Afterwards, inflatons would continue to drive inflation in whatever pockets of the universe they inhabit, repeatedly blowing new universes into existence that then rapidly inflate before settling down. This "eternal inflation" produces infinite pocket universes to create a multiverse.
Quantum harmony
For now, physicists don't know how they might observe the multiverse and confirm that it exists. "But when the idea of inflation was proposed 30 years ago, it was a figment of theoretical imagination," says Marc Kamionkowski at Johns Hopkins University in Baltimore, Maryland. "What I'm hoping is that with these results, other theorists out there will start to think deeply about the multiverse, so that 20 years from now we can have a press conference saying we've found evidence of it."
In the meantime, studying the properties of the swirls in the CMB might reveal details of what the cosmos was like just after its birth. The power and frequency of the waves seen by BICEP2 show that they were rippling through a particle soup with an energy of about 1016 gigaelectronvolts, or 10 trillion times the peak energy expected at the Large Hadron Collider. At such high energies, physicists expect that three of the four fundamental forces in physics the strong, weak and electromagnetic forces would be merged into one.
One possible wrinkle is that previous temperature maps of the CMB suggested that the signal from primordial gravitational waves should be much weaker that what BICEP2 is seeing. Those results set theorists bickering about whether inflation really happened and whether it could create a multiverse. Several physicists suggested that we scrap the idea entirely for a new model of cosmic birth.
Taken alone, the BICEP2 results give a strong-enough signal to clinch inflation and put the multiverse back in the game. But the tension with previous maps is worrying, says Paul Steinhardt at Princeton University, who helped to develop the original theory of inflation but has since grown sceptical of it.
"If you look at the best-fit models with the new data added, they're bizarre," Steinhardt says. "If it remains like that, it requires adding extra fields, extra parameters, and you get really rather ugly-looking models.[/bold]
So thanks to this discovery the multiverse would exist and it would solve the problem of what came before. As inflation is eternal. Or the notion of inflation is wrong because what we see vs what we expected are vastly different.
Ha this is great and so interesting.