Numbers, addition, multiplication — the basic stuff of grade-school arithmetic — are suddenly the excited talk of cutting-edge mathematicians.
On Aug. 30, with no fanfare, Shinichi Mochizuki, a mathematician at Kyoto University in Japan, dropped onto the Internet four papers.
The papers, encompassing 500 pages and four years of effort, claim to solve an important problem in number theory known as the abc conjecture. (No, it does not involve the alphabet; it has to do with integers and prime numbers, and the letters represent mathematical variables used in equations.)
He has remained quiet since then. Others have not.
"I hope it's right," said Minhyong Kim, a mathematician at the University of Oxford in England. "It would be a fantastic breakthrough."
What is even more fascinating is that Dr. Mochizuki has devised new mathematics machinery that he employs for the proof.
The abstract ideas and notations that mathematicians manipulate are unfathomable to most people. Dr. Mochizuki's new mathematical language — on his Web page, he describes himself as an "inter-universal geometer" — is at present incomprehensible even to other top mathematicians.
"He's taking what we know about numbers and addition and multiplication and really taking them apart," Dr. Kim said. "He creates a whole new language — you could say a whole new universe of mathematical objects — in order to say something about the usual universe."
Jordan Ellenberg, a University of Wisconsin mathematician who writes a mathematics blog, Quomodocumque, said, "At first glance, it feels like you're reading something from outer space."
Some wonder whether the accolades are coming too soon.
For other recent mathematical tours de force — the proofs of Fermat's last theorem, by Andrew Wiles at Princeton in 1995, and the Poincaré conjecture, by Grigory Perelman, a Russian mathematician, in 2003 — other experts could not immediately tell whether the proofs were valid, but "at least in some outline version, they understood how this approach made sense," said Nets Katz, a mathematician at Indiana University
For Dr. Mochizuki's abc conjecture proof, "that seems to be completely missing, and I've never seen that in my life," Dr. Katz said. "It just seems a little odd that most of the people who say positive things about it cannot say what are the ingredients of the proof."
While they cannot yet make heads or tails of it, many are nonetheless taking it seriously, because Dr. Mochizuki already has a number of significant proofs to his credit. "He has a long track record, and he has a long track record of being original," Dr. Ellenberg said.
Indeed, much of the buzz is around the new techniques the mathematicians do not understand, potentially useful in unraveling similar problems and revealing deeper connections between numbers and geometry.
"It's a very basic restriction on how multiplicative properties of numbers can interact with addition," Dr. Kim said about the abc conjecture. "Somebody might say: 'Could there be anything new to discover about the relation between addition and multiplication? This is grade-school stuff.' But there is."
The conjecture, first proposed in the 1980s, considers a simple equation of three integers, a + b = c, where the three integers do not share any common divisors other than 1. For example, 1 + 2 = 3 and 81 + 64 = 145 satisfy that condition (but 2 + 2 = 4 does not). The conjecture also ties in the notion of prime numbers — integers greater than 1 that have no positive divisors other than 1 and themselves.
"The conjecture says roughly that if there are prime numbers that divide either a or b too many times, then their presence has to be 'balanced out' by largish primes that divide c only a few times," Dr. Kim said. "We see 3 divides 81 four times, and 2 divides 64 six times. But then, 145 equals 5 times 29, so you get the larger primes 5 and 29 dividing 145 just once."
As mathematicians learn Dr. Mochizuki's new language, the proposed proof will take months or years of careful review, not just the 500 pages that Dr. Mochizuki just released but also reams of earlier work over the past dozen years.
"I'm very tentative about almost anything I say about it, because it's such a long and technical paper," Dr. Kim said. "It will take a long time to say something intelligent. It will take a while before we even have a general picture of the situation."
By MICHAEL POWELL 18 Sep, 2012
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Source: http://www.nytimes.com/2012/09/18/science/possible-breakthrough-in-maths-abc-conjecture.html?partner=rss&emc=rss
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