Mathematics of Computation

Author(s): Garikai Campbell.
Journal: Math. Comp. 73 (2004), 2093-2108.
MSC (2000): Primary 14G05, 11G05, 11D25
Posted: July 29, 2003
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Abstract: Nathaniel Dean asks the following: Is it possible to find four nonconcyclic points on the parabola

such that each of the six distances between pairs of points is rational? We demonstrate that there is a correspondence between all rational points satisfying this condition and orbits under a particular group action of rational points on a fiber product of (three copies of) an elliptic surface. In doing so, we provide a detailed description of the correspondence, the group action and the group structure of the elliptic curves making up the (good) fibers of the surface. We find for example that each elliptic curve must contain a point of order 4. The main result is that there are infinitely many rational distance sets of four nonconcyclic (rational) points on

. We begin by giving a brief history of the problem and by placing the problem in the context of a more general, long-standing open problem. We conclude by giving several examples of solutions to the problem and by offering some suggestions for further work.

1.: William Anderson, William Simons, J. G. Mauldon and James C. Smith. Elementary Problems and Solutions: A Dense Subset of the Unit Circle (E 2697). American Mathematical Monthly. 86(3):225, Mar. 1979.
2.: C. Batut, K. Belabas, D. Benardi, H. Cohen and M. Olivier. User's Guide to PARI-GP. ftp://megrez.math.u-bordeaux.fr/pub/pari, 1998. (See also http://pari.home.ml.org.)
3.: Andrew Bremner and Richard K. Guy. A Dozen Difficult Diophantine Dilemmas. American Mathematical Monthly, 95(1):31-36, Jan. 1998.
4.: Andrew Bremner, Arizona State University. Rational Points on . Personal communication. Dec. 2001.
5.: John Cremona. mwrank. http://www.maths.nottingham.ac.uk/personal/jec/ftp/progs/, 2002.
6.: Nathaniel Dean, Rice University. Personal communication. Oct. 2000.
7.: Richard K. Guy, Unsolved Problems in Number Theory, Second Edition. Springer-Verlag, 1994.MR 96e:11002
8.: J. Lagrange and J. Leech. Two Triads of Squares. Mathematics of Computation. 46(174):751-758, Apr. 1986.MR 87d:11018
9.: Allan J. MacLeod, University of Paisley. Rational Distance Sets on . Personal communication. Jun. 2002.
10.: Landon Curt Noll and David I. Bell. -clusters for . Mathematics of Computation. 53(187):439-444, Jul. 1989.MR 89j:52008
11.: Joseph Silverman. The Arithmetic of Elliptic Curves. Springer-Verlag, 1986.MR 87g:11070
12.: Joseph Silverman. Advanced Topics in the Arithmetic of Elliptic Curves. Springer-Verlag, 1994.MR 96b:11074
13.: W. D. Peeples, Jr., Elliptic Curves and Rational Distance Sets. Proceedings of the American Mathematical Society. 5(1):29-33, Feb. 1954.MR 15:645f

Retrieve articles in Mathematics of Computation with MSC (2000): 14G05, 11G05, 11D25

Garikai Campbell
Affiliation: Department of Mathematics and Statistics, Swarthmore College, Swarthmore, Pennsylvania 19081
Email: kai@swarthmore.edu

DOI: 10.1090/S0025-5718-03-01606-5
PII: S 0025-5718(03)01606-5
Keywords: Rational distance sets, elliptic curves, elliptic surfaces.
Received by editor(s): January 7, 2003
Received by editor(s) in revised form: February 4, 2003
Posted: July 29, 2003
Additional Notes: This work was supported by the Swarthmore College Lang Grant and the Woodrow Wilson Career Enhancement Fellowship.
Copyright of article: Copyright 2003, American Mathematical Society

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