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A new approach to test Lorentz invariance in the weak interaction

Lorentz invariance has been tested rather poorly on the weak interaction in comparison to the electromagnetic interaction. This work discusses which tests on the weak interaction may be relevant. In particular, it considers exploiting the spin degrees of freedom in β decay for testing rotational inv...

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Published in:	Annalen der Physik 2013-09, Vol.525 (8-9), p.653-658
Main Authors:	Wilschut, Hans W., Dijck, Elwin A., Hoekstra, Steven, Jungmann, Klaus, Müller, Stefan E., Noordmans, Jacob P., Onderwater, Gerco, Pijpker, Coen, Sytema, Auke, Timmermans, Rob G. E., Vos, K. Keri, Willmann, Lorenz
Format:	Article
Language:	English
Subjects:	Decay Degrees of freedom Electromagnetic interactions Electromagnetism Invariance Lorentz invariance violation Mathematical analysis non-leptonic decay Physics Rotational Standard Model Extension weak interaction β decay
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creator	Wilschut, Hans W. Dijck, Elwin A. Hoekstra, Steven Jungmann, Klaus Müller, Stefan E. Noordmans, Jacob P. Onderwater, Gerco Pijpker, Coen Sytema, Auke Timmermans, Rob G. E. Vos, K. Keri Willmann, Lorenz
description	Lorentz invariance has been tested rather poorly on the weak interaction in comparison to the electromagnetic interaction. This work discusses which tests on the weak interaction may be relevant. In particular, it considers exploiting the spin degrees of freedom in β decay for testing rotational invariance. The relation between the various phenomenological tests of Lorentz invariance is shown using a new theoretical framework. Lorentz invariance has been tested rather poorly on the weak interaction in comparison to the electromagnetic interaction. This work discusses which tests on the weak interaction may be relevant. In particular, it considers exploiting the spin degrees of freedom in β decay for testing rotational invariance. The relation between the various phenomenological tests of Lorentz invariance is shown using a new theoretical framework.
doi_str_mv	10.1002/andp.201300076
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The relation between the various phenomenological tests of Lorentz invariance is shown using a new theoretical framework.</description><subject>Decay</subject><subject>Degrees of freedom</subject><subject>Electromagnetic interactions</subject><subject>Electromagnetism</subject><subject>Invariance</subject><subject>Lorentz invariance violation</subject><subject>Mathematical analysis</subject><subject>non-leptonic decay</subject><subject>Physics</subject><subject>Rotational</subject><subject>Standard Model Extension</subject><subject>weak interaction</subject><subject>β decay</subject><issn>0003-3804</issn><issn>1521-3889</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2013</creationdate><recordtype>article</recordtype><recordid>eNqFkM1LAzEQxYMoWGqvnhe8eNk6-druHovVKpSqVBG8hOk2oduP3TVJrfWvN2WliBcvMy_h94bHI-ScQpcCsCssZ3WXAeUA0EuOSItKRmOeptkxaYU_HjSIU9JxbhGeIIEBEy3S70el3kZY17bCfB75KvLa-WhUWV36r6goP9AWWOY6yMjPdbTVuAzaa4u5L6ryjJwYXDnd-dlt8nJ783x9F48ehvfX_VGchxRJnPQ4SgkSNReYToVJUGaGC84xZdyAYTOYoknYVLApsJTyXCLLDDWcYjjA2-SyuRuSvm9CRrUuXK5XKyx1tXGKCpH2GKQZDejFH3RRbWwZ0gWKA09Ahtkm3YbKbeWc1UbVtlij3SkKal-q2peqDqUGQ9YYtsVK7_6hVX88ePztjRtv4bz-PHjRLlVopifV63iongaDZPI2SZXg35g_h9M</recordid><startdate>201309</startdate><enddate>201309</enddate><creator>Wilschut, Hans W.</creator><creator>Dijck, Elwin A.</creator><creator>Hoekstra, Steven</creator><creator>Jungmann, Klaus</creator><creator>Müller, Stefan E.</creator><creator>Noordmans, Jacob P.</creator><creator>Onderwater, Gerco</creator><creator>Pijpker, Coen</creator><creator>Sytema, Auke</creator><creator>Timmermans, Rob G. 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subjects	Decay Degrees of freedom Electromagnetic interactions Electromagnetism Invariance Lorentz invariance violation Mathematical analysis non-leptonic decay Physics Rotational Standard Model Extension weak interaction β decay
title	A new approach to test Lorentz invariance in the weak interaction
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