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<TR><TD valign="top">[1]</TD> <TD valign="top">  J.W.S. Cassels, "An introduction to the geometry of numbers" , Springer  (1972) {{ZBL|0209.34401}}</TD></TR>
 
<TR><TD valign="top">[1]</TD> <TD valign="top">  J.W.S. Cassels, "An introduction to the geometry of numbers" , Springer  (1972) {{ZBL|0209.34401}}</TD></TR>
<TR><TD valign="top">[2]</TD> <TD valign="top">  B.F. Skubenko, "A proof of Minkowski's conjecture on the product of $n$ linear inhomogeneous forms in $n$ variables for $n  
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<TR><TD valign="top">[2]</TD> <TD valign="top">  B.F. Skubenko, "A proof of Minkowski's conjecture on the product of $n$ linear inhomogeneous forms in $n$ variables for $n \leq 5$" , ''Investigations in number theory'' , ''Zap. Nauchn. Sem. Leningrad. Otdel. Mat. Inst. Steklov'' , '''33'''  (1973)  pp. 6–36  (In Russian)</TD></TR>
leq 5$" , ''Investigations in number theory'' , ''Zap. Nauchn. Sem. Leningrad. Otdel. Mat. Inst. Steklov'' , '''33'''  (1973)  pp. 6–36  (In Russian)</TD></TR>
 
 
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Revision as of 20:09, 11 November 2023


on the product of inhomogeneous linear forms

A statement according to which for real linear forms

$$ L _ {j} ( \overline{x}\; ) = \ a _ {j1} x _ {1} + \dots + a _ {jn} x _ {n} ,\ \ 1 \leq j \leq n, $$

in $ n $ variables $ x _ {1} \dots x _ {n} $, with a non-zero determinant $ \Delta $, and any real $ \alpha _ {1} \dots \alpha _ {n} $, there are integers $ x _ {1} \dots x _ {n} $ such that the inequality

$$ \tag{* } \prod _ { j= } 1 ^ { n } | L _ {j} ( \overline{x}\; ) - \alpha _ {j} | \leq 2 ^ {-} n | \Delta | $$

holds. This hypothesis was proved by H. Minkowski (1918) in case $ n = 2 $. A proof of the hypothesis is known (1982) for $ n \leq 5 $, and (*) has been proved for $ n > 5 $ under certain additional restrictions (see [2]).

References

[1] J.W.S. Cassels, "An introduction to the geometry of numbers" , Springer (1972) Zbl 0209.34401
[2] B.F. Skubenko, "A proof of Minkowski's conjecture on the product of $n$ linear inhomogeneous forms in $n$ variables for $n \leq 5$" , Investigations in number theory , Zap. Nauchn. Sem. Leningrad. Otdel. Mat. Inst. Steklov , 33 (1973) pp. 6–36 (In Russian)

Comments

See also Geometry of numbers.

References

[a1] P.M. Gruber, C.G. Lekkerkerker, "Geometry of numbers" , North-Holland (1987) pp. Sect. (iv) (Updated reprint)
[a2] P. Erdös, P.M. Gruber, J. Hammer, "Lattice points" , Longman (1989)
How to Cite This Entry:
Minkowski hypothesis. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Minkowski_hypothesis&oldid=54366
This article was adapted from an original article by E.I. Kovalevskaya (originator), which appeared in Encyclopedia of Mathematics - ISBN 1402006098. See original article