Supernatural number

In mathematics, the supernatural numbers, sometimes called generalized natural numbers or Steinitz numbers, are a generalization of the natural numbers. They were used by Ernst Steinitz^[1] in 1910 as a part of his work on field theory.

A supernatural number $\omega$ is a formal product:

\omega = \prod_p p^{n_p},

where $p$ runs over all prime numbers, and each $n_p$ is zero, a natural number or infinity. Sometimes $v_p(\omega)$ is used instead of $n_p$ . If no $n_p = \infty$ and there are only a finite number of non-zero $n_p$ then we recover the positive integers. Slightly less intuitively, if all $n_p$ are $\infty$ , we get zero. Supernatural numbers extend beyond natural numbers by allowing the possibility of infinitely many prime factors, and by allowing any given prime to divide $\omega$ "infinitely often," by taking that prime's corresponding exponent to be the symbol $\infty$ .

There is no natural way to add supernatural numbers, but they can be multiplied, with $\prod_p p^{n_p}\cdot\prod_p p^{m_p}=\prod_p p^{n_p+m_p}$ . Similarly, the notion of divisibility extends to the supernaturals with $\omega_1\mid\omega_2$ if $v_p(\omega_1)\leq v_p(\omega_2)$ for all $p$ . The notion of the least common multiple and greatest common divisor can also be generalized for supernatural numbers, by defining

\displaystyle \operatorname{lcm}(\{\omega_i\}) \displaystyle =\prod_p p^{\sup(v_p(\omega_i))}

\displaystyle \operatorname{gcd}(\{\omega_i\}) \displaystyle =\prod_p p^{\inf(v_p(\omega_i))}

With these definitions, the gcd or lcm of infinitely many natural numbers (or supernatural numbers) is a supernatural number. We can also extend the usual $p$ -adic order functions to supernatural numbers by defining $v_p(\omega)=n_p$ for each $p$

Supernatural numbers are used to define orders and indices of profinite groups and subgroups, in which case many of the theorems from finite group theory carry over exactly. They are used to encode the algebraic extensions of a finite field.^[2] They are also used implicitly in many number-theoretical proofs, such as the density of the square-free integers and bounds for odd perfect numbers.

References

↑ Steinitz, Ernst (1910). "Algebraische Theorie der Körper". Journal für die reine und angewandte Mathematik (in German). 137: 167–309. ISSN 0075-4102. JFM 41.0445.03.
↑ Brawley & Schnibben (1989) pp.25-26

Brawley, Joel V.; Schnibben, George E. (1989). Infinite algebraic extensions of finite fields. Contemporary Mathematics. 95. Providence, RI: American Mathematical Society. pp. 23–26. ISBN 0-8218-5101-2. Zbl 0674.12009.
Efrat, Ido (2006). Valuations, orderings, and Milnor K-theory. Mathematical Surveys and Monographs. 124. Providence, RI: American Mathematical Society. p. 125. ISBN 0-8218-4041-X. Zbl 1103.12002.
Fried, Michael D.; Jarden, Moshe (2008). Field arithmetic. Ergebnisse der Mathematik und ihrer Grenzgebiete. 3. Folge. 11 (3rd ed.). Springer-Verlag. p. 520. ISBN 978-3-540-77269-9. Zbl 1145.12001.

External links

Planet Math: Supernatural number

Number systems

Countable sets	Natural numbers (ℕ) Integers (ℤ) Rational numbers (ℚ) Constructible numbers Algebraic numbers (𝔸) Periods Computable numbers Definable real numbers Arithmetical numbers Gaussian integers

Division algebras	Real numbers (ℝ) Complex numbers (ℂ) Quaternions (ℍ) Octonions (𝕆)

Split Composition algebras	over ℝ: Split-complex numbers Split-quaternions Split-octonions over ℂ: Bicomplex numbers Biquaternions Bioctonions

Other hypercomplex	Dual numbers Dual quaternions Hyperbolic quaternions Sedenions (𝕊) Split-biquaternions Multicomplex numbers

Other types	Cardinal numbers Irrational numbers Hyperreal numbers Levi-Civita field Surreal numbers Transcendental numbers Ordinal numbers p-adic numbers Supernatural numbers Superreal numbers

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Supernatural number

See also

References

External links