List_of_number_fields_with_class_number_one

List of number fields with class number one

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This is an incomplete list of number fields with class number 1.

It is believed that there are infinitely many such number fields, but this has not been proven.^[1]

Cubic fields

Complex cubic field

All complex cubic fields with discriminant greater than −500 have class number one, except the fields with discriminants −283, −331 and −491 which have class number 2. The real root of the polynomial for −23 is the reciprocal of the plastic ratio (negated), while that for −31 is the reciprocal of the supergolden ratio. The polynomials defining the complex cubic fields that have class number one and discriminant greater than −500 are:^[5]

x³ − x² + 1 (discriminant −23)
x³ + x − 1 (discriminant −31)
x³ − x² + x + 1 (discriminant −44)
x³ + 2x − 1 (discriminant −59)
x³ − 2x − 2 (discriminant −76)
x³ − x² + x − 2 (discriminant −83)
x³ − x² + 2x + 1 (discriminant −87)
x³ − x − 2 (discriminant −104)
x³ − x² + 3x − 2 (discriminant −107)
x³ − 2 (discriminant −108)
x³ − x² − 2 (discriminant −116)
x³ + 3x − 1 (discriminant −135)
x³ − x² + x + 2 (discriminant −139)
x³ + 2x − 2 (discriminant −140)
x³ − x² − 2x − 2 (discriminant −152)
x³ − x² − x + 3 (discriminant −172)
x³ − x² + 2x − 3 (discriminant −175)
x³ − x² + 4x − 1 (discriminant −199)
x³ − x² + 2x + 2 (discriminant −200)
x³ − x² + x − 3 (discriminant −204)
x³ − 2x − 3 (discriminant −211)
x³ − x² + 4x − 2 (discriminant −212)
x³ + 3x − 2 (discriminant −216)
x³ − x² + 3 (discriminant −231)
x³ − x − 3 (discriminant −239)
x³ − 3 (discriminant −243)
x³ + x − 6 (discriminant −244)
x³ + x − 3 (discriminant −247)
x³ − x² − 3 (discriminant −255)
x³ − x² − 3x + 5 (discriminant −268)
x³ − x² − 3x − 3 (discriminant −300)
x³ − x² + 3x + 2 (discriminant −307)
x³ − 3x − 4 (discriminant −324)
x³ − x² − 2x − 3 (discriminant −327)
x³ − x² + 4x + 1 (discriminant −335)
x³ − x² − x + 4 (discriminant −339)
x³ + 3x − 3 (discriminant −351)
x³ − x² + x + 7 (discriminant −356)
x³ + 4x − 2 (discriminant −364)
x³ − x² + 2x + 3 (discriminant −367)
x³ − x² + x − 4 (discriminant −379)
x³ − x² + 5x − 2 (discriminant −411)
x³ − 4x − 5 (discriminant −419)
x³ − x² + 8 (discriminant −424)
x³ − x − 8 (discriminant −431)
x³ + x − 4 (discriminant −436)
x³ − x² − 2x + 5 (discriminant −439)
x³ + 2x − 8 (discriminant −440)
x³ − x² − 5x + 8 (discriminant −451)
x³ + 3x − 8 (discriminant −459)
x³ − x² + 5x − 3 (discriminant −460)
x³ − 5x − 6 (discriminant −472)
x³ − x² + 4x + 2 (discriminant −484)
x³ − x² + 3x + 3 (discriminant −492)
x³ + 4x − 3 (discriminant −499)

Notes

[1]
Chapter I, section 6, p. 37 of Neukirch 1999
[2]
Dembélé, Lassina (2005). "Explicit computations of Hilbert modular forms on $\mathbb {Q} ({\sqrt {5}})$ " (PDF). Exp. Math. 14 (4): 457–466. doi:10.1080/10586458.2005.10128939. ISSN 1058-6458. S2CID 9088028. Zbl 1152.11328.
[3]
H. Cohen, A Course in Computational Algebraic Number Theory, GTM 138, Springer Verlag (1993), Appendix B2, p.507
[4]
H. Cohen and H. W. Lenstra, Heuristics on class groups of number fields, Number Theory, Noordwijkerhout 1983, Proc. 13th Journées Arithmétiques, ed. H. Jager, Lect. Notes in Math. 1068, Springer-Verlag, 1984, pp. 33—62
[5]
Tables available at Pari source code
[6]
Washington, Lawrence C. (1997). Introduction to Cyclotomic Fields. Graduate Texts in Mathematics. Vol. 83 (2nd ed.). Springer-Verlag. Theorem 11.1. ISBN 0-387-94762-0. Zbl 0966.11047.
[7]
Sloane, N. J. A. (ed.). "Sequence A005848 (Cyclotomic fields with class number 1 (or with unique factorization).)". The On-Line Encyclopedia of Integer Sequences. OEIS Foundation. Retrieved 2024-03-20.
[8]
J. C. Miller, Class numbers of totally real fields and applications to the Weber class number problem, https://arxiv.org/abs/1405.1094
[9]
Fukuda, Takashi; Komatsu, Keiichi (2009). "Weber's class number problem in the cyclotomic $\mathbb {Z} _{2}$ -extension of $\mathbb {Q}$ ". Exp. Math. 18 (2): 213–222. doi:10.1080/10586458.2009.10128896. ISSN 1058-6458. MR 2549691. S2CID 31421633. Zbl 1189.11033.
[10]
Fukuda, Takashi; Komatsu, Keiichi (2011). "Weber's class number problem in the cyclotomic $\mathbb {Z} _{2}$ -extension of $\mathbb {Q}$ III". Int. J. Number Theory. 7 (6): 1627–1635. doi:10.1142/S1793042111004782. ISSN 1793-7310. MR 2835816. S2CID 121397082. Zbl 1226.11119.
[11]
Morisawa, Takayuki (2009). "A class number problem in the cyclotomic $\mathbb {Z} _{3}$ -extension of $\mathbb {Q}$ ". Tokyo J. Math. 32 (2): 549–558. doi:10.3836/tjm/1264170249. ISSN 0387-3870. MR 2589962. Zbl 1205.11116.
[12]
Stark, Harold (1974), "Some effective cases of the Brauer–Siegel theorem", Inventiones Mathematicae, 23 (2): 135–152, Bibcode:1974InMat..23..135S, doi:10.1007/bf01405166, hdl:10338.dmlcz/120573, S2CID 119482000
[13]
Odlyzko, Andrew (1975), "Some analytic estimates of class numbers and discriminants", Inventiones Mathematicae, 29 (3): 275–286, Bibcode:1975InMat..29..275O, doi:10.1007/bf01389854, S2CID 119348804
[14]
Murty, V. Kumar (2001), "Class numbers of CM-fields with solvable normal closure", Compositio Mathematica, 127 (3): 273–287, doi:10.1023/A:1017589432526
[15]
Yamamura, Ken (1994), "The determination of the imaginary abelian number fields with class number one", Mathematics of Computation, 62 (206): 899–921, Bibcode:1994MaCom..62..899Y, doi:10.2307/2153549, JSTOR 2153549
[16]
Louboutin, Stéphane; Okazaki, Ryotaro (1994), "Determination of all non-normal quartic CM-fields and of all non-abelian normal octic CM-fields with class number one", Acta Arithmetica, 67 (1): 47–62, doi:10.4064/aa-67-1-47-62

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[neu-1] [1]
Chapter I, section 6, p. 37 of Neukirch 1999

[2] [2]
Dembélé, Lassina (2005). "Explicit computations of Hilbert modular forms on $\mathbb {Q} ({\sqrt {5}})$ " (PDF). Exp. Math. 14 (4): 457–466. doi:10.1080/10586458.2005.10128939. ISSN 1058-6458. S2CID 9088028. Zbl 1152.11328.

[3] [3]
H. Cohen, A Course in Computational Algebraic Number Theory, GTM 138, Springer Verlag (1993), Appendix B2, p.507

[4] [4]
H. Cohen and H. W. Lenstra, Heuristics on class groups of number fields, Number Theory, Noordwijkerhout 1983, Proc. 13th Journées Arithmétiques, ed. H. Jager, Lect. Notes in Math. 1068, Springer-Verlag, 1984, pp. 33—62

[pari-5] [5]
Tables available at Pari source code

[6] [6]
Washington, Lawrence C. (1997). Introduction to Cyclotomic Fields. Graduate Texts in Mathematics. Vol. 83 (2nd ed.). Springer-Verlag. Theorem 11.1. ISBN 0-387-94762-0. Zbl 0966.11047.

[7] [7]
Sloane, N. J. A. (ed.). "Sequence A005848 (Cyclotomic fields with class number 1 (or with unique factorization).)". The On-Line Encyclopedia of Integer Sequences. OEIS Foundation. Retrieved 2024-03-20.

[8] [8]
J. C. Miller, Class numbers of totally real fields and applications to the Weber class number problem, https://arxiv.org/abs/1405.1094

[Exp2009-9] [9]
Fukuda, Takashi; Komatsu, Keiichi (2009). "Weber's class number problem in the cyclotomic $\mathbb {Z} _{2}$ -extension of $\mathbb {Q}$ ". Exp. Math. 18 (2): 213–222. doi:10.1080/10586458.2009.10128896. ISSN 1058-6458. MR 2549691. S2CID 31421633. Zbl 1189.11033.

[10] [10]
Fukuda, Takashi; Komatsu, Keiichi (2011). "Weber's class number problem in the cyclotomic $\mathbb {Z} _{2}$ -extension of $\mathbb {Q}$ III". Int. J. Number Theory. 7 (6): 1627–1635. doi:10.1142/S1793042111004782. ISSN 1793-7310. MR 2835816. S2CID 121397082. Zbl 1226.11119.

[11] [11]
Morisawa, Takayuki (2009). "A class number problem in the cyclotomic $\mathbb {Z} _{3}$ -extension of $\mathbb {Q}$ ". Tokyo J. Math. 32 (2): 549–558. doi:10.3836/tjm/1264170249. ISSN 0387-3870. MR 2589962. Zbl 1205.11116.

[12] [12]
Stark, Harold (1974), "Some effective cases of the Brauer–Siegel theorem", Inventiones Mathematicae, 23 (2): 135–152, Bibcode:1974InMat..23..135S, doi:10.1007/bf01405166, hdl:10338.dmlcz/120573, S2CID 119482000

[13] [13]
Odlyzko, Andrew (1975), "Some analytic estimates of class numbers and discriminants", Inventiones Mathematicae, 29 (3): 275–286, Bibcode:1975InMat..29..275O, doi:10.1007/bf01389854, S2CID 119348804

[14] [14]
Murty, V. Kumar (2001), "Class numbers of CM-fields with solvable normal closure", Compositio Mathematica, 127 (3): 273–287, doi:10.1023/A:1017589432526

[15] [15]
Yamamura, Ken (1994), "The determination of the imaginary abelian number fields with class number one", Mathematics of Computation, 62 (206): 899–921, Bibcode:1994MaCom..62..899Y, doi:10.2307/2153549, JSTOR 2153549

[16] [16]
Louboutin, Stéphane; Okazaki, Ryotaro (1994), "Determination of all non-normal quartic CM-fields and of all non-abelian normal octic CM-fields with class number one", Acta Arithmetica, 67 (1): 47–62, doi:10.4064/aa-67-1-47-62

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List_of_number_fields_with_class_number_one

List of number fields with class number one

Definition

Quadratic number fields

Real quadratic fields

Imaginary quadratic fields

Cubic fields

Totally real cubic field

Complex cubic field

Cyclotomic fields

CM fields

See also

Notes

References

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