Lehmer's conjecture, also known as the Lehmer's Mahler measure problem, is a problem in number theory raised by Derrick Henry Lehmer.[1] The conjecture asserts that there is an absolute constant such that every polynomial with integer coefficients satisfies one of the following properties:
- The Mahler measure[2] of is greater than or equal to .
- is an integral multiple of a product of cyclotomic polynomials or the monomial , in which case . (Equivalently, every complex root of is a root of unity or zero.)
There are a number of definitions of the Mahler measure, one of which is to factor over as
and then set
The smallest known Mahler measure (greater than 1) is for "Lehmer's polynomial"
for which the Mahler measure is the Salem number[3]
It is widely believed that this example represents the true minimal value: that is, in Lehmer's conjecture.[4][5]
Motivation
editConsider Mahler measure for one variable and Jensen's formula shows that if then
In this paragraph denote , which is also called Mahler measure.
If has integer coefficients, this shows that is an algebraic number so is the logarithm of an algebraic integer. It also shows that and that if then is a product of cyclotomic polynomials i.e. monic polynomials whose all roots are roots of unity, or a monomial polynomial of i.e. a power for some .
Lehmer noticed[1][6] that is an important value in the study of the integer sequences for monic . If does not vanish on the circle then . If does vanish on the circle but not at any root of unity, then the same convergence holds by Baker's theorem (in fact an earlier result of Gelfond is sufficient for this, as pointed out by Lind in connection with his study of quasihyperbolic toral automorphisms[7]).[8] As a result, Lehmer was led to ask
- whether there is a constant such that provided is not cyclotomic?,
or
- given , are there with integer coefficients for which ?
Some positive answers have been provided as follows, but Lehmer's conjecture is not yet completely proved and is still a question of much interest.
Partial results
editLet be an irreducible monic polynomial of degree .
Smyth[9] proved that Lehmer's conjecture is true for all polynomials that are not reciprocal, i.e., all polynomials satisfying .
Blanksby and Montgomery[10] and Stewart[11] independently proved that there is an absolute constant such that either or[12]
Dobrowolski[13] improved this to
Dobrowolski obtained the value C ≥ 1/1200 and asymptotically C > 1-ε for all sufficiently large D. Voutier in 1996 obtained C ≥ 1/4 for D ≥ 2.[14]
Elliptic analogues
editLet be an elliptic curve defined over a number field , and let be the canonical height function. The canonical height is the analogue for elliptic curves of the function . It has the property that if and only if is a torsion point in . The elliptic Lehmer conjecture asserts that there is a constant such that
- for all non-torsion points ,
where . If the elliptic curve E has complex multiplication, then the analogue of Dobrowolski's result holds:
due to Laurent.[15] For arbitrary elliptic curves, the best known result is
due to Masser.[16] For elliptic curves with non-integral j-invariant, this has been improved to
Restricted results
editStronger results are known for restricted classes of polynomials or algebraic numbers.
If P(x) is not reciprocal then
and this is clearly best possible.[18] If further all the coefficients of P are odd then[19]
For any algebraic number α, let be the Mahler measure of the minimal polynomial of α. If the field Q(α) is a Galois extension of Q, then Lehmer's conjecture holds for .[19]
Relation to structure of compact group automorphisms
editThe measure-theoretic entropy of an ergodic automorphism of a compact metrizable abelian group is known to be given by the logarithmic Mahler measure of a polynomial with integer coefficients if it is finite.[20] As pointed out by Lind, this means that the set of possible values of the entropy of such actions is either all of or a countable set depending on the solution to Lehmer's problem.[21] Lind also showed that the infinite-dimensional torus either has ergodic automorphisms of finite positive entropy or only has automorphisms of infinite entropy depending on the solution to Lehmer's problem. Since an ergodic compact group automorphism is measurably isomorphic to a Bernoulli shift, and the Bernoulli shifts are classified up to measurable isomorphism by their entropy by Ornstein's theorem, this means that the moduli space of all ergodic compact group automorphisms up to measurable isomorphism is either countable or uncountable depending on the solution to Lehmer's problem.
References
edit- ^ a b Lehmer, D.H. (1933). "Factorization of certain cyclotomic functions". Ann. Math. 2. 34 (3): 461–479. doi:10.2307/1968172. hdl:10338.dmlcz/128119. ISSN 0003-486X. JSTOR 1968172. Zbl 0007.19904.
- ^ Smyth, Chris (2008). "The Mahler measure of algebraic numbers: a survey". In McKee, James; Smyth, Chris (eds.). Number Theory and Polynomials. Cambridge University Press. pp. 322–349. ISBN 978-0-521-71467-9.
- ^ Borwein, Peter (2002). Computational Excursions in Analysis and Number Theory. CMS Books in Mathematics. Springer-Verlag. p. 16. ISBN 0-387-95444-9. Zbl 1020.12001.
- ^ Smyth (2008) p.324
- ^ Everest, Graham; van der Poorten, Alf; Shparlinski, Igor; Ward, Thomas (2003). Recurrence sequences. Mathematical Surveys and Monographs. Vol. 104. Providence, RI: American Mathematical Society. p. 30. ISBN 0-8218-3387-1. Zbl 1033.11006.
- ^ Boyd, David (1981). "Speculations concerning the range of Mahler's measure". Canad. Math. Bull. 24 (4): 453–469. doi:10.4153/CMB-1981-069-5.
- ^ Lind, D. A. (1982). "Dynamical properties of quasihyperbolic toral automorphisms". Ergodic Theory and Dynamical Systems. 2: 49–68. doi:10.1017/s0143385700009573. S2CID 120859454.
- ^ Everest, Graham; Ward, Thomas (1999). Heights of polynomials and entropy in algebraic dynamics. London: Springer. doi:10.1007/978-1-4471-3898-3. ISBN 1-85233-125-9.
- ^ Smyth, C. J. (1971). "On the product of the conjugates outside the unit circle of an algebraic integer". Bulletin of the London Mathematical Society. 3 (2): 169–175. doi:10.1112/blms/3.2.169. Zbl 1139.11002.
- ^ Blanksby, P. E.; Montgomery, H. L. (1971). "Algebraic integers near the unit circle". Acta Arith. 18: 355–369. doi:10.4064/aa-18-1-355-369. Zbl 0221.12003.
- ^ Stewart, C. L. (1978). "Algebraic integers whose conjugates lie near the unit circle". Bull. Soc. Math. France. 106: 169–176. doi:10.24033/bsmf.1868.
- ^ Smyth (2008) p.325
- ^ Dobrowolski, E. (1979). "On a question of Lehmer and the number of irreducible factors of a polynomial". Acta Arith. 34 (4): 391–401. doi:10.4064/aa-34-4-391-401.
- ^ P. Voutier, An effective lower bound for the height of algebraic numbers, Acta Arith. 74 (1996), 81–95.
- ^ Smyth (2008) p.327
- ^ Masser, D.W. (1989). "Counting points of small height on elliptic curves". Bull. Soc. Math. Fr. 117 (2): 247–265. doi:10.24033/bsmf.2120. Zbl 0723.14026.
- ^ Hindry, Marc; Silverman, Joseph H. (1990). "On Lehmer's conjecture for elliptic curves". In Goldstein, Catherine (ed.). Sémin. Théor. Nombres, Paris/Fr. 1988-89. Prog. Math. Vol. 91. pp. 103–116. ISBN 0-8176-3493-2. Zbl 0741.14013.
- ^ Smyth (2008) p.328
- ^ a b Smyth (2008) p.329
- ^ Lind, Douglas; Schmidt, Klaus; Ward, Tom (1990). "Mahler measure and entropy for commuting automorphisms of compact groups". Inventiones Mathematicae. 101: 593–629. Bibcode:1990InMat.101..593L. doi:10.1007/BF01231517. S2CID 17077751.
- ^ Lind, Douglas (1977). "The structure of skew products with ergodic group automorphisms". Israel Journal of Mathematics. 28 (3): 205–248. doi:10.1007/BF02759810. S2CID 120160631.
External links
edit- http://wayback.cecm.sfu.ca/~mjm/Lehmer/ is a nice reference about the problem.
- Weisstein, Eric W. "Lehmer's Mahler Measure Problem". MathWorld.