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The Rise of the Anti-Universe
FQXI ^ | 6/20/09 | Anil Ananthaswamy

Posted on 06/22/2009 1:46:42 AM PDT by LibWhacker

How our youthful universe explored the string-theory multiverse in search of home—with help from its anti-universe counterpart. Its journey could explain why our cosmos is so well suited for life.

Saswat Sarangi owes his career in physics to a twist of fate. When he was a 13 year-old schoolboy in Orissa in eastern India, his uncle bought him a copy of Stephen Hawking’s A Brief History of Time as a birthday present. Unfortunately, the young Sarangi would have preferred a cricket bat, and the book remained unread for two years, until he found himself struggling to prepare for a physics test on electrons and their antiparticle counterparts, positrons. His textbook was no help, so he started flipping through Hawking’s book.

"I’m sure I didn’t understand much, but the words were fascinating. That’s when I wanted to do physics," says Sarangi, now a post-doc at Columbia University in New York. Certainly, the workings of antiparticles no longer flummox him. Quite the opposite, in fact, as Sarangi believes that "anti-universes" and their interplay with regular universes could help tackle one of the prickliest problems in physics: why our universe is the way it is.

It’s fashionable these days to talk of the multiverse, the near infinity of universes of which ours is just one. For some, the multiverse is a godsend because it provides an explanation, of sorts, for why our universe has its peculiar properties. Why is the energy density of the vacuum of space—the so-called cosmological constant—the size that it is? Why is the proton 1,836 times heavier than the electron? We don’t have a physical theory that explains these particular values; but in the context of a multiverse, we don’t need one. It is likely that our universe has the special properties it does—giving rise to galaxies, stars, planets, and humans—by accident. Other universes could exist with different properties, but we wouldn’t have evolved in them and hence wouldn’t be around to argue about it.

The Anthropic Disease

This is the anthropic principle and it doesn’t sit well with Sarangi. "Some people have been trying to avoid this principle like a disease," he says. Sarangi finds the anthropic principle difficult to stomach because, in essence, it argues that there are some things about our universe that we cannot determine from first principles. It’s like admitting defeat, and Sarangi doesn’t want to give in just yet.

"(Sarangi) treats the anthropic principle as an admission of our ignorance today about our universe, not as a final resolution to the issue," explains Henry Tye, Sarangi’s colleague and former Ph.D. advisor at Cornell University in Ithaca, New York. "He is not afraid to ask provocative questions."

Sarangi came to Cornell after studying physics at the Indian Institute of Technology in West Bengal, just as another pair of physicists was stirring up string theory. Joseph Polchinski and Raphael Bousso had discovered that string theory doesn’t provide a unique "theory of everything" that can explain the properties of our universe, as hoped. Instead, string-theory equations offer at least 10500 solutions. Each solution points to a different universe with different values for fundamental constants and even different laws of physics. And nothing in string theory seems to favor one solution over another. All are equally likely.

Leonard Susskind of Stanford University coined the phrase "Landscape of String Theory" to describe this theoretical wealth of possible universes. "Everyone became excited about the landscape," says Sarangi. "People were fighting about whether it was there or not."

Roaming the Landscape

For Sarangi, the important question is: Could a universe that starts off in some random place in the landscape, with random properties, somehow end up in a more stable region of the landscape, such as the one in which our universe resides? Our universe is obviously in some stable or pseudo-stable state because for the last 13 billion years, it has maintained the same basic parameters, such as the electron mass. But, asks Sarangi, did our universe start off elsewhere in the landscape, with different properties and laws, but then finally end up where it did?

The purpose behind this question is to show that—despite the landscape and the multiverse—string theory can still predict why we find ourselves in a universe like ours, without having to resort to the unsavory anthropic principle. A universe could start off with random properties but end up looking like ours.

It helps to develop a mental picture of the landscape of string theory as a terrain of hills and valleys, where each valley represents a point of temporary stability. (Because there are hundreds of different parameters in the theory that can change, the landscape is actually a hyper-dimensional terrain, with valleys representing the most energetically stable values for each parameter.)

"The multiverse picture is simply that there are different universes separated from us in space and time, and these universes are sitting in different valleys," says Sarangi.

A universe that arises randomly settles into the nearest valley. But what are the odds that this universe could explore the landscape and find its way to a different stable region? The key to answering this is to look at conditions in the early universe, when the infant universe went through a period of exponential expansion, known as inflation. While string theory predicts that a landscape exists, inflation shows how such a landscape can be realized. When and how inflation ends in a patch of spacetime dictates its properties and each patch is a universe in its own right. This gives rise to the multiverse.

During the inflationary era, the universe is at its most dynamic; if the universe is ever going to explore the multiverse, this is probably the time. An inflating universe that sits in a valley will be separated by hills from other lower, more stable, valleys. All it has to do to reach them is climb over that hill. But how can it overcome this mountain?

The Anti-Universe

It’s possible that the intrepid universe could use a quantum trick to get it to the other side of the hill. In quantum systems, particles often "tunnel" through high-energy barriers that—according to classical physics—they should not be able to cross (see diagram, below left). Could an inflating universe do the same?

Sarangi thinks so. Until now, it was thought that quantum tunneling during inflation was impossible since inflation lasts for a relatively short period and should be over long before the universe has had a chance to tunnel anywhere. But last year, Sarangi and his colleagues found a special corner of the landscape where quantum tunneling happens so quickly that a universe has enough time to tunnel to another part of the landscape while it is still inflating.

Bizarrely, it helps if the hill is very large. At first, as you increase the size of the hill, quantum tunneling is suppressed; but then the rate of tunneling dramatically increases, says Sarangi. "We were very excited by this. This is the first example where you can get exponentially fast quantum tunneling, even though your hill has a large size."

So what’s behind this strange effect? Something similar is actually observed in the lab, when you fire an electron at an electromagnetic field that represents a "barrier." Initially the electron cannot get over this hill. But as you increase the size of the barrier, things change. At the top of the hill, there is enough energy for the vacuum to start spontaneously spawning pairs of electrons and positrons. Usually, these electron-positron pairs immediately annihilate each other. But occasionally, a positron will roll down the hill and annihilate the electron that’s trying to cross the hill. The positron’s partner then rolls down the other side of the hill. Effectively, an electron has tunneled through the extremely high barrier.

Something analogous but far more mind-boggling could be happening to a quantum universe in the multiverse. Replace the electron with a universe, the positron with an anti-universe, and you get the picture.

Isn’t this a bit far-fetched? No, not at all, says string theorist Brian Greene of Columbia University, with whom Sarangi now works. "It’s a direct analogue of the case which is understood: the particle and anti-particle," says Greene.

Sarangi and colleagues Gary Shiu of the University of Wisconsin, Madison, and Benjamin Shlaer of the University of Colorado, Boulder, will be using their $50,000 grant from the Foundational Questions Institute to work out how likely it is for universes to explore the landscape via quantum tunneling.

Besides investigating cases where universe and anti-universe pairs help achieve tunneling (known as Dirac-Born-Infeld tunneling) they are also looking at resonance tunneling, a phenomenon seen in the lab in which an electron can burrow through two adjacent hills that have identical properties. It may be possible that universes can perform a similar feat. And with the help of Greene’s string-theory smarts, they plan to simulate tens of thousands of hills and valleys in the multi-dimensional landscape to see whether tunneling can actually take place.

Greene is confident that Sarangi has the chops to tackle this formidable problem. "He’s a very mild-mannered but vehement physicist, who really stays on an issue until he resolves it," says Greene. "It’s a great combination."

Of course, it’s possible that the simulation will show that there simply isn’t enough quantum tunneling for a universe with random properties to make its way to our neck of the landscape. But just maybe the team will find that there is enough exploration and that random universes should find themselves in stable corners, where they would take on properties like those of our universe. "That would be very exciting," says Sarangi.


TOPICS: Astronomy; Science
KEYWORDS: anilananthaswamy; antiuniverse; india; inflation; multiverse; stringtheory; tunneling
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1 posted on 06/22/2009 1:46:42 AM PDT by LibWhacker
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To: LibWhacker

2 posted on 06/22/2009 1:57:30 AM PDT by JoeProBono (A closed mouth gathers no feet)
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To: LibWhacker
When he was a 13 year-old schoolboy in Orissa in eastern India.... the book remained unread for two years.... until he found himself struggling to prepare for a physics test on electrons and their antiparticle counterparts, positrons. At the age of 15??!!?
3 posted on 06/22/2009 2:04:13 AM PDT by ketelone
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To: ketelone

Yep, they start them early over there.


4 posted on 06/22/2009 2:24:39 AM PDT by LibWhacker (America awake!)
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To: ketelone

Yes. In India 15 year olds take such physics courses, at least in some parts of India. (I work with a bunch of programmers from India.)


5 posted on 06/22/2009 2:41:43 AM PDT by samtheman
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To: LibWhacker

I don’t have a problem with the anthropic principle with regard to the multiverse, or with regard to the solar system, for that matter.

We find ourselves on Earth, not on Mars or Venus, because Earth is suitable for life, Mars and Venus not. Does that cause us to suffer the pains of philosophical conundrums? No, because it’s obvious. Life is going to evolve in places where conditions are suitable and not evolve in places where conditions suck.

Same with the multiverse. We find ourselves in a universe that has the “right” combination of physical laws to make for stable stellar chemistries and the right bonding properties of atoms and we don’t find ourself in a universe in which stars are too cold to burn or in which they flame out in mere seconds. What’s so troubling about that? It seems to me no more or less obvious than life evolving on Earth and not on Venus or Mars.

I think some people are troubled by philosophical conundrums just because they’re put off by certain phrases, like “anthropic principle” (a phrase, by the way, that I think is unnecessary to discuss the possibility of a multiverse)... either that or they just want those $50,000 grants.


6 posted on 06/22/2009 2:51:00 AM PDT by samtheman
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To: samtheman

Sort of like a person who won the jackpot tracing back each and every step that lead him toward buying that winning ticket, and proclaiming each one of them, divinely designed.


7 posted on 06/22/2009 3:03:35 AM PDT by MyTwoCopperCoins (I don't have a license to kill; I have a learner's permit.)
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To: JoeProBono

8 posted on 06/22/2009 3:05:37 AM PDT by visualops (portraits.artlife.us or visit my freeper page)
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To: LibWhacker

9 posted on 06/22/2009 3:15:42 AM PDT by SkyPilot
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To: samtheman
...a phrase, by the way, that I think is unnecessary to discuss the possibility of a multiverse

IMO, that goes to the heart of what troubles so many people. Not the anthropic principle, per se, which, I agree with you, has always seemed so obvious that it's hardly worth stating, but the suspicion that it is being used to advance a multiverse hypothesis that may be impossible to ever prove or disprove in the usual scientific sense.

10 posted on 06/22/2009 3:25:15 AM PDT by LibWhacker (America awake!)
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To: LibWhacker
For some, the multiverse is a godsend because it provides an explanation, of sorts, for why our universe has its peculiar properties.

Or, maybe the "godsend" is that we really are special.

11 posted on 06/22/2009 3:32:39 AM PDT by RegulatorCountry
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To: LibWhacker

Gee, the multi-verse theory started popping up almost 50 years ago in DC comics to explain the changes in some of their superheroes.


12 posted on 06/22/2009 3:40:39 AM PDT by Dr. Sivana (we also have the duty to avoid prostituting our Catholic identity by appeals to phony dialogue)
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To: visualops

Where did you get that picture? It is great. I love it. Tell me more about it.


13 posted on 06/22/2009 3:44:58 AM PDT by Corinthian Warrior
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To: MyTwoCopperCoins

What a great analogy! Is that yours or did you read it somewhere.

Either way, great!


14 posted on 06/22/2009 3:50:09 AM PDT by samtheman
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To: Dr. Sivana

Lol ...nice one. I also like your FR moniker ...Dr Sivana. Better watch out, or Captain Marvel will come whoop your ....


15 posted on 06/22/2009 3:50:50 AM PDT by spetznaz (Nuclear-tipped Ballistic Missiles: The Ultimate Phallic Symbol)
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To: samtheman

It’s mine... :^)


16 posted on 06/22/2009 3:57:36 AM PDT by MyTwoCopperCoins (I don't have a license to kill; I have a learner's permit.)
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To: MyTwoCopperCoins

Well, it’s an excellent analogy and you deserve some credit for it somewhere.

The MyTwoCopperCoins anti-Anthropism... or some such title.


17 posted on 06/22/2009 4:12:10 AM PDT by samtheman
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To: samtheman

Ha ha! Thanks!


18 posted on 06/22/2009 4:14:54 AM PDT by MyTwoCopperCoins (I don't have a license to kill; I have a learner's permit.)
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To: JoeProBono

According to the chart, there are multiple ‘big bangs’.

That makes it a GANG BANG, no?

Thus ends my contribution to astrophysics.


19 posted on 06/22/2009 4:32:42 AM PDT by 2nd Bn, 11th Mar
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To: 2nd Bn, 11th Mar

20 posted on 06/22/2009 4:36:01 AM PDT by JoeProBono (A closed mouth gathers no feet)
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