"Cohen-Lenstra heuristics"의 두 판 사이의 차이

관련논문

• Milovic, Djordjo. “On the \(16\)-Rank of Class Groups of \(\mathbb{Q}(\sqrt{-8p})\) for \(p\equiv -1\bmod 4\).” arXiv:1511.07127 [math], November 23, 2015. http://arxiv.org/abs/1511.07127.
• Bartel, Alex, and Hendrik W. Lenstra Jr. “Commensurability of Automorphism Groups.” arXiv:1510.02758 [math], October 9, 2015. http://arxiv.org/abs/1510.02758.
• Wood, Melanie Matchett. ‘Random Integral Matrices and the Cohen Lenstra Heuristics’. arXiv:1504.04391 [math], 16 April 2015. http://arxiv.org/abs/1504.04391.
• Boston, Nigel, Michael R. Bush, and Farshid Hajir. “Heuristics for \(p\)-Class Towers of Imaginary Quadratic Fields, with an Appendix by Jonathan Blackhurst.” arXiv:1111.4679 [math], November 20, 2011. http://arxiv.org/abs/1111.4679.

노트

말뭉치

1. We report on computational results indicating that the well-known Cohen–Lenstra–Martinet heuristic for class groups of number fields may fail in many situations.^[1]
2. "New Computations Concerning the Cohen-Lenstra Heuristics.^[2]
3. This thesis is devoted to studying this Cohen-Lenstra heuristic.^[3]
4. point out and study a deep connection between the Cohen-Lenstra probability measure and partitions.^[3]
5. show the dierence between the local (i.e., for p-groups) and the global Cohen-Lenstra measure.^[3]
6. give applications of the Cohen-Lenstra measure to various elds of mathematics.^[3]
7. Ideas such as these will help fuel discussion on what assumptions on a set of fields is necessary to expect random distribution of class group behavior as the Cohen-Lenstra conjectures predict!^[4]
8. At the meeting, we hope to have presentations on the various aspects of the Cohen-Lenstra conjectures described above, including the recent re-thinking of the conjectures by Lenstra himself.^[4]
9. In this paper, we develop some fast techniques for evaluating h(p) where p is not very large and provide some computational results in support of the Cohen-Lenstra heuristics.^[5]
10. L L te Riele and Williams: New Computations Concerning the Cohen-Lenstra Heuristics 103 (2) For i = 1, 2, . . .^[5]
11. The Cohen-Lenstra heuristics were initially postulated in the early 1980s for the class groups of number fields.^[6]
12. The past ten years have seen an explosion of activity surrounding the Cohen-Lenstra heuristics.^[6]
13. Moreover Cohen-Lenstra type phenomena have been observed in such diverse areas of pure mathematics as elliptic curves, hyperbolic 3-manifolds, and the Jacobians of graphs.^[6]
14. In this note we propose an analog of the well-known Cohen-Lenstra heuristics for modules over the Iwasawa algebra .^[7]
15. We call sums of this type Cohen-Lenstra sums, or CL sums for short.^[7]
16. We note that in the classical case the observed scarcity of non-cyclic modules occurring in nature (as class groups) may well have led to the Cohen-Lenstra heuristics in the rst place.^[7]
17. Cohen, Lenstra and Martinet predicted that the class numbers of such extensions should be coprime to 3 with probability (cid:89) i=2 (1 3i ) .840.^[8]
18. The Cohen-Lenstra heuristic is a universal principle that assigns to each group a probability that tells how often this group should occur "in nature".^[9]
19. The most important, but not the only, applications are sequences of class groups, which behave like random sequences of groups with respect to the so-called Cohen-Lenstra probability measure.^[9]
20. This article deals with the coherence of the model given by the Cohen–Lenstra heuristic philosophy for class groups and also for their generalizations to Tate–Shafarevich groups.^[10]
21. This paper sketches the Cohen-Lenstra philosophy in both cases of class groups and of Tate-Shafarevich groups.^[11]
22. In the second section, we recall the Cohen-Lenstra heuristic for class groups.^[11]
23. The magic of the Cohen-Lenstra heuristic is that it works!^[11]
24. Cohen and Lenstra proved (cf.^[11]

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Spacy 패턴 목록

• [{'LOWER': 'cohen'}, {'OP': '*'}, {'LOWER': 'lenstra'}, {'LEMMA': 'heuristic'}]
• [{'LOWER': 'cohen'}, {'OP': '*'}, {'LEMMA': 'Lenstra'}]