Slashdot Mirror

← Back to Stories (view on slashdot.org)

Going Beyond Fermat's Last Theorem

Posted by Hemos on from the advancing-the-field-of-knowledge dept.

amjith writes "An Indian mathematician, Chandrashekhar Khare, is poised to make a significant breakthrough in the field of number theory with his solution of part of a major outstanding problem in algebraic number theory. He is currently an associate professor in Mathematics Department of University of Utah. "

12 of 357 comments (clear)

  1. Papers by Khare by yodha · · Score: 4, Informative

    www.math.utah.edu/~shekhar/papers.html

  2. Actual info by vossman77 · · Score: 4, Informative

    He has proved what is known to specialists in the field as the `level-1 case of the Serre conjecture.' In earlier work done with the French mathematician, J.P. Wintenberger, in December 2004, Dr. Khare outlined a two-part general strategy to prove the Serre conjecture fully. The present result is a first key step.

    Wikipedia page for Serre conjecture

  3. you might want to change the URL by neye_eve · · Score: 3, Informative

    the underline appears all the way through " to make a significant breakthrough in the field of number theory with his solution "

    even though the word "solution" leads to a different link than all of the preceding words.

  4. Re:Explanation needed by vossman77 · · Score: 4, Informative

    It was proved in 1995 by English mathematician Andrew Wiles.

    Wikipedia page of the theorem

    I don't follow the field close enough to know its relation to Serre's multiplicity conjectures.

  5. Re:And being Indian ... by lawpoop · · Score: 4, Informative
    I thought is was muslims who did the most work on it in the western world.

    From the wikipedia article: "The word algebra itself comes from the name of the treatise first written by a Persian mathematician Al-Khwarizmi 700 AD, who wrote a treatise titled: Kitab al-mukhtasar fi Hisab Al-Jabr wa-al-Moghabalah meaning The book of summary concerning calculating by transposition and reduction. The word al-jabr (from which algebra is derived) means "reunion", "connection" or "completion"."

    --
    Computers are useless. They can only give you answers.
    -- Pablo Picasso
  6. Re:encryption by tomstdenis · · Score: 3, Informative

    Um ... the only one related to crypto would be the theorem that a^p mod p == a if p is prime and a is co-prime to p.

    That's not only not the famous Fermat Last Theorem but it's also trivially provable with basic number theory.

    Tom

    --
    Someday, I'll have a real sig.
  7. The Inevitable "What Use" Question by DumbSwede · · Score: 4, Informative

    Just to speculate on a possible "what use" question that might arise, I can't help but notice the line This is one of the central themes of modern research in number theory and is devoted to the study of the relation between the symmetries of number theory and geometry. . If I may be so bold, anything that ties the study of pure math to geometry probably has implications for quantum mechanics. These objects may lie embedded in higher dimensions, and probably settle into stable configurations from near infinite possibilities. But they still have to satisfy some allowable mathematical model. This is just the type of thing that may allow us to better predict what those allowable states could be.

    --
    Letter To Iran
  8. Re:And being Indian ... by tjstork · · Score: 4, Informative

    Muslims borrowed heavily from India when they invaded India. The Islamic role in the sciences tended to be more about preserving the best of what they had conquered. As traders, they acted as a point where that knowledge could be disseminated to Europe.

    --
    This is my sig.
  9. Re:And being Indian ... by Omega1045 · · Score: 3, Informative
    That is a really good point. In Muslim control Spain, the Jewish population enjoyed a "Renaissance" of sorts. At that point, Hebrew was an almost dead language. Under the rule of the Moors, the Jews regained much of their cultural identity and created many works of art and literature.

    http://www.fiestasiesta.co.uk/history/jews.html

    --

    Great ideas often receive violent opposition from mediocre minds. - Albert Einstein

  10. Re:I thought... by the_2nd_coming · · Score: 3, Informative

    umm.. no.. 3 of the 4 conjectures have been proven.. positivity of R/p and R/Q is still in question.. and no.. showing that it is non negative is not a proof of positivity.. 0 is not positive.

    --



    I am the Alpha and the Omega-3
  11. Slashdot and mathematics breakthroughs... by hanssprudel · · Score: 5, Informative

    This site does not have a very good record with mathematical breakthroughs that it runs on the front page. Just to give some examples:

    1) A year and a half ago Slashdot ran a story (along with most of the MSM) about a Swedish girl having solved the 16th Hilbert problem. That turned out to be a completely bogus claim - she had, in fact, proved nothing.

    2) Slashdot ran with there being infinitely many twin primes. The proof was flawed.

    3) No, the Riemann hypothesis (the most coveted result in all of Mathematics) has not been proved.

    Those are just the examples I can remember off hand. There have been several more, and I cannot think of a single one that has turned out to actually be true. So please take vague stories about being "poised to make a great story" from local press with a pretty hefty grain of salt...

  12. A little exposition by Anonymous Coward · · Score: 5, Informative

    Glancing over the responses so far, I've come across several links to "the" Serre conjecture. Of course, since this is Slashdot (Land of the Karma Whore) it also looks like not a one of those referred to the conjecture relevant to this discussion.

    The particular conjecture of Serre that matters here focuses on the two-dimensional representations over a finite field of the Galois group Gal(Qbar/Q). Now since that's not particularly illuminating, let me say a bit more...

    First, Qbar denotes the algebraic completion of the rational numbers -- that is, all the stuff you need to add to the rationals so that you can do stuff like factor polynomials with rational coefficients. So things like sqrt(2) are in Qbar, but transcental numbers like pi aren't.

    Gal(Qbar/Q) is the group of symmetries of Qbar over Q -- the ways you can map it to itself while still preserving multiplication and addition, and leaving the rational numbers inside Qbar alone. For instance, complex conjugation gives an element of the Galois group.

    Now one way to understand any group of symmetries is by looking at its "linear representations" -- basically, ways of assigning matrices to each of the symmetries so that matrix multiplication matches up with the composition of symmetries.

    The conjecture talked about here claims to describe (in some sense) all such (irreducible) representations of Gal(Qbar/Q), at least if you limit yourself to 2x2 matrices and coefficients in a finite field.

    This is similar to the Langlands Correspondence, which (among other things) deals with representations of Gal(Qbar/Q) by complex matrices (though not just 2x2).