Teorema de Linnik

Em teoria analítica dos números o Teorema de Linnik é uma resposta a uma questão sobre Teorema de Dirichlet sobre progressões aritméticas. Ele afirma que existem números positivos c e L tais que, se representarmos p(a,d) o menor primo em progressão aritmética

a+nd,\

onde n percorre o conjunto dos inteiros positivos; e a e d são quaisquer inteiros co-primos no intervalo 1 ≤ a ≤ d - 1, então:

p(a,d)<cd^{L}.\;

O teorema tem este nome devido a Yuri Vladimirovitch Linnik, que o provou em 1944.^[1]^[2] Embora a prova de Linnik mostrasse que c e L serem efetivamente computáveis, ele não forneceu valores numéricos para eles.

Propriedades

Sabe-se que para L ≤ 2 para quase todos os inteiros d.^[3]

Na hipótese generalizada de Riemann pode-se mostrar que

p(a,d)\leq (1+o(1))\varphi (d)^{2}\ln ^{2}d\;,

onde $\varphi$ é a função totiente.^[4]

Há ainda uma conjectura de que:

p(a,d)<d^{2}.\;

^[4]

Limites para L

A constante L é chamada de constante de Linnik e a tabela a seguir mostra o progresso que tem sido feito em determinar seu tamanho.

L ≤	Ano de publicação	Autor
10000	1957	Pan^[5]
5448	1958	Pan
777	1965	Chen^[6]
630	1971	Jutila
550	1970	Jutila^[7]
168	1977	Chen^[8]
80	1977	Jutila^[9]
36	1977	Graham^[10]
20	1981	Graham^[11] (submetido antes do trabalho de Chen de 1979)
17	1979	Chen^[12]
16	1986	Wang
13.5	1989	Chen and Liu^[13]^[14]
8	1990	Wang^[15]
5.5	1992	Heath-Brown^[4]
5.2	2009	Xylouris^[16]
5	2011	Xylouris^[17]

Além disso, no resultado de Heath-Brown', a constante c é efetivamente computável.

Notas

↑ Linnik, Yu. V. On the least prime in an arithmetic progression I. The basic theorem Rec. Math. (Mat. Sbornik) N.S. 15 (57) (1944), pages 139-178
↑ Linnik, Yu. V. On the least prime in an arithmetic progression II. The Deuring-Heilbronn phenomenon Rec. Math. (Mat. Sbornik) N.S. 15 (57) (1944), pages 347-368
↑ E. Bombieri, J. B. Friedlander, H. Iwaniec. "Primes in Arithmetic Progressions to Large Moduli. III", Journal of the American Mathematical Society 2(2) (1989), pp. 215–224.
↑ ^a ^b ^c Heath-Brown, D. R. Zero-free regions for Dirichlet L-functions, and the least prime in an arithmetic progression, Proc. London Math. Soc. 64(3) (1992), pp. 265-338
↑ Pan Cheng Dong On the least prime in an arithmetical progression. Sci. Record (N.S.) 1 (1957) pp. 311-313
↑ Jingrun Chen On the least prime in an arithmetical progression. Sci. Sinica 14 (1965) pp. 1868-1871
↑ Jutila, M. A new estimate for Linnik's constant. Ann. Acad. Sci. Fenn. Ser. A I No. 471 (1970) 8 pp.
↑ Jingrun Chen On the least prime in an arithmetical progression and two theorems concerning the zeros of Dirichlet's $L$-functions. Sci. Sinica 20 (1977), no. 5, pp. 529-562
↑ Jutila, M. On Linnik's constant. Math. Scand. 41 (1977), no. 1, pp. 45-62
↑ Applications of sieve methods Ph.D. Thesis, Univ. Michigan, Ann Arbor, Mich., 1977
↑ Graham, S. W. On Linnik's constant. Acta Arith. 39 (1981), no. 2, pp. 163-179
↑ Jingrun Chen On the least prime in an arithmetical progression and theorems concerning the zeros of Dirichlet's $L$-functions. II. Sci. Sinica 22 (1979), no. 8, pp. 859-889
↑ Jingrun Chen and Liu Jian Min On the least prime in an arithmetical progression. III. Sci. China Ser. A 32 (1989), no. 6, pp. 654-673
↑ Jingrun Chen and Liu Jian Min On the least prime in an arithmetical progression. IV. Sci. China Ser. A 32 (1989), no. 7, pp. 792-807
↑ Wang On the least prime in an arithmetical progression. Acta Mathematica Sinica, New Series 1991 Vol. 7 No. 3 pp. 279-288
↑ Triantafyllos Xylouris, On Linnik's constant (2009). Arxiv
↑ Triantafyllos Xylouris, Über die Nullstellen der Dirichletschen L-Funktionen und die kleinste Primzahl in einer arithmetischen Progression (2011). Dr. rer. nat. dissertation.

[1] Linnik, Yu. V. On the least prime in an arithmetic progression I. The basic theorem Rec. Math. (Mat. Sbornik) N.S. 15 (57) (1944), pages 139-178

[2] Linnik, Yu. V. On the least prime in an arithmetic progression II. The Deuring-Heilbronn phenomenon Rec. Math. (Mat. Sbornik) N.S. 15 (57) (1944), pages 347-368

[3] E. Bombieri, J. B. Friedlander, H. Iwaniec. "Primes in Arithmetic Progressions to Large Moduli. III", Journal of the American Mathematical Society 2(2) (1989), pp. 215–224.

[heath-brown-4] Heath-Brown, D. R. Zero-free regions for Dirichlet L-functions, and the least prime in an arithmetic progression, Proc. London Math. Soc. 64(3) (1992), pp. 265-338

[5] Pan Cheng Dong On the least prime in an arithmetical progression. Sci. Record (N.S.) 1 (1957) pp. 311-313

[6] Jingrun Chen On the least prime in an arithmetical progression. Sci. Sinica 14 (1965) pp. 1868-1871

[7] Jutila, M. A new estimate for Linnik's constant. Ann. Acad. Sci. Fenn. Ser. A I No. 471 (1970) 8 pp.

[8] Jingrun Chen On the least prime in an arithmetical progression and two theorems concerning the zeros of Dirichlet's $L$-functions. Sci. Sinica 20 (1977), no. 5, pp. 529-562

[9] Jutila, M. On Linnik's constant. Math. Scand. 41 (1977), no. 1, pp. 45-62

[10] Applications of sieve methods Ph.D. Thesis, Univ. Michigan, Ann Arbor, Mich., 1977

[11] Graham, S. W. On Linnik's constant. Acta Arith. 39 (1981), no. 2, pp. 163-179

[12] Jingrun Chen On the least prime in an arithmetical progression and theorems concerning the zeros of Dirichlet's $L$-functions. II. Sci. Sinica 22 (1979), no. 8, pp. 859-889

[13] Jingrun Chen and Liu Jian Min On the least prime in an arithmetical progression. III. Sci. China Ser. A 32 (1989), no. 6, pp. 654-673

[14] Jingrun Chen and Liu Jian Min On the least prime in an arithmetical progression. IV. Sci. China Ser. A 32 (1989), no. 7, pp. 792-807

[15] Wang On the least prime in an arithmetical progression. Acta Mathematica Sinica, New Series 1991 Vol. 7 No. 3 pp. 279-288

[16] Triantafyllos Xylouris, On Linnik's constant (2009). Arxiv

[17] Triantafyllos Xylouris, Über die Nullstellen der Dirichletschen L-Funktionen und die kleinste Primzahl in einer arithmetischen Progression (2011). Dr. rer. nat. dissertation.

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