Cheng-Yang Lee scite author profile

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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Demoralization syndrome among cancer outpatients in Taiwan

Lee

Fang

Yang

et al. 2011

Support Care Cancer

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Elko as self-interacting fermionic dark matter with axis of locality

2010

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We here provide further details on the construction and properties of mass dimension one quantum fields based on Elko expansion coefficients. We show that by a judicious choice of phases, the locality structure can be dramatically improved. In the process we construct a fermionic dark matter candidate which carries not only an unsuppressed quartic self interaction but also a preferred axis. Both of these aspects are tentatively supported by the data on dark matter.Comment: Published versio

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Mass dimension one fermions: Constructing darkness

Ahluwalia¹,

Silva

Lee

et al. 2022

Physics Reports

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A Lagrangian for mass dimension one fermionic dark matter

Lee¹

2016

Physics Letters B

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The mass dimension one fermionic field associated with Elko satisfies the Klein-Gordon but not the Dirac equation. However, its propagator is not a Green's function of the Klein-Gordon operator. We determine the operator in which the associated Green's function is the propagator of the fermionic field. The field is still of mass dimension one, but the obtained Lagrangian resolves the last outstanding issue of mass dimension one fields. This Lagrangian does not admit local gauge invariance. Therefore, the mass dimension one fermions have limited interactions with the Standard Model particles and are natural dark matter candidates.

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Cheng-Yang Lee

Self-interacting Elko dark matter with an axis of locality

Demoralization syndrome among cancer outpatients in Taiwan

Elko as self-interacting fermionic dark matter with axis of locality

Mass dimension one fermions: Constructing darkness

A Lagrangian for mass dimension one fermionic dark matter

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