Open AccessAlgorithmic algebraic geometry and flux vacua
Author(s) -
James Gray,
YangHui He,
André Lukas
Publication year - 2006
Publication title -
journal of high energy physics
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.998
H-Index - 261
eISSN - 1126-6708
pISSN - 1029-8479
DOI - 10.1088/1126-6708/2006/09/031
Subject(s) - algebraic number , algebra over a field , flux (metallurgy) , algebraic geometry , theoretical physics , process (computing) , computer science , mathematics , geometry , pure mathematics , physics , mathematical analysis , materials science , metallurgy , operating system
41 pages, 4 figuresWe develop a new and efficient method to systematically analyse four dimensional effective supergravities which descend from flux compactifications. The issue of finding vacua of such systems, both supersymmetric and non-supersymmetric, is mapped into a problem in computational algebraic geometry. Using recent developments in computer algebra, the problem can then be rapidly dealt with in a completely algorithmic fashion. Two main results are (1) a procedure for calculating constraints which the flux parameters must satisfy in these models if any given type of vacuum is to exist; (2) a stepwise process for finding all of the isolated vacua of such systems and their physical properties. We illustrate our discussion with several concrete examples, some of which have eluded conventional methods so far
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