Radical Re-Envisioning of How the Universe Began –“A Spiritual Quest”

 

“You say to yourself, ‘Here I am, the only one on the planet who knows this thing. Soon the rest of the world will know, but for the moment I am the only one.” In 1969, Stanford physicist Leonard Susskind imagined the basic building blocks of the universe as invisible vibrating loops of energy. This insight would form the basis of string theory and help lead to a radical re-envisioning of how the universe began.

When Leonard Susskind came up with the idea for string theory, he wasn’t searching for a theory of everything or trying to provoke a fundamental crisis in physics. His ambition was much more modest, at least by the standards of his field: Susskind was trying to explain the “strong” force binding protons and neutrons inside atoms.

Susskind, then a young particle physicist at New York’s Yeshiva University, realized that the mathematical formula that explains what happens when particle pairs collide made more sense if one imagined the particles as individual loops of string that combine and oscillate together for a little while before parting ways.

Susskind’s elation lasted for all of two days, until he learned that two other physicists, Yoichiro Nambu at the University of Chicago and Holger Nielsen at the University of Copenhagen, had converged on the idea at exactly the same time.

Susskind’s excitement began spreading to the rest of the physics community in 1984, when physicists John Schwarz and Michael Green, now at Caltech and the University of Cambridge, respectively, published a paper suggesting that string theory could describe not only the strong force – the one Susskind sought to explain – but the weak and electromagnetic forces as well. Most intriguing of all, it also predicted the existence of a massless particle called a graviton.

 

 

Gravitons are the presumed quantum messengers of gravity, the slippery fourth force that refuses to be corralled into the Standard Model, the theoretical framework devised by physicists to explain how the basic building blocks of matter interact.

Exuberant theorists everywhere soon felt that they were on the verge of reconciling the mathematical discord between general relativity, which explains gravity, and quantum mechanics, which describes the interactions of the other fundamental forces. “There appear to be no insuperable obstacles to deriving all of known physics,” declared one group of supremely confident string theorists.

It wasn’t just string theory’s explanatory power that physicists found bewitching. They were also wooed by its mathematical beauty. Those who plumbed the depths of its rigorous equations compared the quest to spiritual enlightenment.

But the theory demanded a lot from its votaries, such as the blind acceptance of at least 10 dimensions – the four that we are familiar with (up-down, left-right, front-back, and time) – plus another six or more that are invisible because they are curled up, or “compactified,” like origami folded from the fabric of reality.

What’s more, these extra dimensions could have different shapes and sizes and be shuffled in myriad ways. Since the geometry of the dimensions determined how the strings vibrate and thus the particles and forces that they can manifest as, the theory allowed for many combinations of physical laws and constants.

“In string theory, the same framework that makes it clear that you can get the same qualitative ingredients of gravity, quantum mechanics and the Standard Model together also makes it clear that you can do that in many, many ways,” Shamit Kachru said.

The situation grew more complex in the 1990s, when theorists realized that in addition to one-dimensional strings, the theory must also include higher-dimensional membranes, or “branes,” and other ingredients such as fluxes. Physicists had clung to a thread of hope that string theory would reduce down to one inevitable universe whose physics resembled our own. Instead, it seemed to describe an astronomical number of possible universes, a value that was, as Susskind put it, “measured not in the millions or billions but in googols or googolplexes.”

“In string theory, the same framework that makes it clear that you can get the same qualitative ingredients of gravity, quantum mechanics and the Standard Model together also makes it clear that you can do that in many, many ways.”

String theory had reached an impasse, and many physicists were disillusioned. Their best bet for the theory of everything contained so many solutions that it might as well be the theory of nothing at all.

Soon, however, a simple but radical proposition emerged: If the theory’s equations did not point to any particular geometry for the extra dimensions, maybe there was no right geometry. Perhaps each mathematical possibility in string theory is realized in nature as a physical reality, and our universe is merely one of a boundless variety in the multiverse.

But even though string theory allowed for an incredible diversity of worlds, it provided no mechanism for creating them. As Susskind put it, “Mathematical existence is not the same as physical existence. Discovering that string theory had 10500 solutions explains nothing about our world unless we also understand how the corresponding environments came into being.”

For that, physicists would need to go back to the very first moments of the universe – to the beginning of time itself.

To be continued on tomorrow’s “Galaxy”…

The Daily Galaxy via Stanford University and Ker Than

Top 10 Space & Science Headlines of 2018

 

“Spying on Earth’s Most Awesome Creatures” –Scientists Pursue Undiscovered Species of Whales Swimming Below Since the Eocene 

The Alien Observatory: Ancient Stars 6-9 Billion Years Old in Milky Way’s Halo –“May Harbor Advanced Civilizations”

“Point of No Return” –MIT Scientist Predicts the Event Horizon for Earth’s 6th Mass Extinction 

Artificial Intelligence Is Already Out There, and It’s Billions of Years Old” (WATCH Video)

Ghost Signals’ of Extraterrestrial Civilizations Haunt the Milky Way –Suggests the New Drake Equation (WATCH Video)

“Odds That There has Never Been Another Civilization in the Universe One in Ten Billion Trillion” –A Joe Rogan Interview

The Alien Observatory –“The Mystery of Where Extraterrestrial Life is Hiding Deepens”

“We’re Entering Uncharted Territory” –The Exoplanet Revolution May Reveal that Rise of Civilizations May Not be Unusual

“The Big Rip” –When Matter and Spacetime are Gradually Torn Apart Through Expansion of the Universe

“Humans are the First to Arrive at the Interstellar Stage” –Physicist Answers the Fermi Paradox

"The Galaxy" in Your Inbox, Free, Daily