Sneutrino Dark Matter: Symmetry Protection and Cosmic Ray Anomalies
Loading...
Files
Date
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Open Access Color
BRONZE
Green Open Access
Yes
OpenAIRE Downloads
2
OpenAIRE Views
2
Publicly Funded
No
BIP! Indicators
Impulse
Top 10%
Influence
Average
Popularity
Top 10%
Abstract
We present an R-parity conserving model of sneutrino dark matter within a Higgsphilic U(1)′ extension of the minimal supersymmetric standard model. In this theory, the μ parameter and light Dirac neutrino masses are generated naturally upon the breaking of the U(1)′ gauge symmetry. One of the right-handed sneutrinos is the lightest supersymmetric particle. The leptonic and hadronic decays of another sneutrino, taken to be the next-to-lightest superpartner, allow for a natural fit to the recent results reported by the PAMELA experiment. We perform a detailed calculation of the dark matter relic density in this scenario, and show that the model is consistent with the ATIC and Fermi LAT experiments. © 2010 The American Physical Society.
Description
Keywords
Supersymmetric models, Supersymmetric partners of known particles, Elementary particle processes, Dark matter, High Energy Physics - Phenomenology, High Energy Physics - Phenomenology (hep-ph), Supersymmetric partners of known particles, Dark matter, FOS: Physical sciences, Elementary particle processes, Supersymmetric models
Fields of Science
0103 physical sciences, 01 natural sciences
Citation
Demir, D. A., Everett, L. L., Frank, M., Selbuz, L., and Turan, İ. (2010). Sneutrino dark matter: Symmetry protection and cosmic ray anomalies. Physical Review D - Particles, Fields, Gravitation and Cosmology, 81(3). doi:10.1103/PhysRevD.81.035019
WoS Q
Scopus Q
OpenCitations Citation Count
21
Volume
81
Issue
3
Start Page
End Page
PlumX Metrics
Citations
CrossRef : 16
Scopus : 25
Captures
Mendeley Readers : 2
SCOPUS™ Citations
25
checked on Apr 28, 2026
Web of Science™ Citations
24
checked on Apr 28, 2026
Page Views
571
checked on Apr 28, 2026
Downloads
431
checked on Apr 28, 2026
Google Scholar™
