Self-interacting Elko dark matter with an axis of locality

A. B. Gillard; B. D. Wandelt; Cheng-Yang Lee; D. Schritt; D. V. Ahluwalia; E. Majorana; I. J. R. Aitchison; L. O’Raifeartaigh; L. H. Ryder; P. Ramond; P. A. M. Dirac; R. E. Marshak; S. Weinberg; S. Weinberg; S. Weinberg

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Self-interacting Elko dark matter with an axis of locality

Authors: A. B. Gillard
B. D. Wandelt
Cheng-Yang Lee
D. Schritt
D. V. Ahluwalia
E. Majorana
I. J. R. Aitchison
L. O’Raifeartaigh
L. H. Ryder
P. Ramond
P. A. M. Dirac
R. E. Marshak
S. Weinberg
S. Weinberg
S. Weinberg
Publication date: 15 November 2009
Publisher: 'American Physical Society (APS)'
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Abstract

This communication is a natural and nontrivial continuation of the 2005 work of Ahluwalia and Grumiller on Elko. Here we report that Elko breaks Lorentz symmetry in a rather subtle and unexpected way by containing a `hidden' preferred direction. Along this preferred direction, a quantum field based on Elko enjoys locality. In the form reported here, Elko offers a mass dimension one fermionic dark matter with a quartic self-interaction and a preferred axis of locality. The locality result crucially depends on a judicious choice of phases.Comment: 14 pages (RevTex

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