Phenomenology of the production, decay, and detection of new hadronic states associated with supersymmetry

Glennys R. Farrar; Pierre Fayet

doi:10.1016/0370-2693(78)90858-4

Phenomenology of the production, decay, and detection of new hadronic states associated with supersymmetry

Glennys R. Farrar, Pierre Fayet

Research output: Contribution to journal › Article › peer-review

Abstract

Supersymmetric theories involve spinorial partners for the gluons of QCD. If the symmetry breaking is such that they are massless or light, they probably combine with quarks to form families of new, relatively low-lying hadrinic states, which decay into ordinary hadrons and a new, neutrino-like particle. We discuss how present experiments can put limits on their production.

Original language	English (US)
Pages (from-to)	575-579
Number of pages	5
Journal	Physics Letters B
Volume	76
Issue number	5
DOIs	https://doi.org/10.1016/0370-2693(78)90858-4
State	Published - Jul 3 1978

ASJC Scopus subject areas

Nuclear and High Energy Physics

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10.1016/0370-2693(78)90858-4

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@article{8af149745e4b4ecdb8fda6c83026fbbe,

title = "Phenomenology of the production, decay, and detection of new hadronic states associated with supersymmetry",

abstract = "Supersymmetric theories involve spinorial partners for the gluons of QCD. If the symmetry breaking is such that they are massless or light, they probably combine with quarks to form families of new, relatively low-lying hadrinic states, which decay into ordinary hadrons and a new, neutrino-like particle. We discuss how present experiments can put limits on their production.",

author = "Farrar, {Glennys R.} and Pierre Fayet",

note = "Funding Information: Supersymmetry \[1 \] is an attractive idea to go beyond the relativistic invariance of gauge theories for the description of particles and their interactions. It turns bosons into fermions and vice versa. If supersymmetry were perfect they would be degenerate in mass, which is clearly not the case in nature. However, supersymmetry could be realized as a spontaneously broken invariance, so that the physical states would not be degenerate, even though the fundamental interaction is supersymmetric. Since we know only part of the spectrum, it is possible that known particles do have partners under supersymmetry which are still to be discovered. Supersymmetric models have been constructed which appear sufficiently realistic in their description of strong, electromagnetic and weak interactions \[2\] (together with gravitation \[3\]w hen supergravity \[4\] is included) that supersymmetry can be regarded as a possible invariance of the lagrangian of the world. Therefore it is important to work out its experimental consequences. Many of the new fields introduced as supersym-merry partners of the ordinary fields are heavy (the Work supported in part by the U.S. Department of Energy under Contract EY76-CO3-0068. Copyright: Copyright 2014 Elsevier B.V., All rights reserved.",

year = "1978",

month = jul,

day = "3",

doi = "10.1016/0370-2693(78)90858-4",

language = "English (US)",

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pages = "575--579",

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T1 - Phenomenology of the production, decay, and detection of new hadronic states associated with supersymmetry

AU - Farrar, Glennys R.

AU - Fayet, Pierre

N1 - Funding Information: Supersymmetry \[1 \] is an attractive idea to go beyond the relativistic invariance of gauge theories for the description of particles and their interactions. It turns bosons into fermions and vice versa. If supersymmetry were perfect they would be degenerate in mass, which is clearly not the case in nature. However, supersymmetry could be realized as a spontaneously broken invariance, so that the physical states would not be degenerate, even though the fundamental interaction is supersymmetric. Since we know only part of the spectrum, it is possible that known particles do have partners under supersymmetry which are still to be discovered. Supersymmetric models have been constructed which appear sufficiently realistic in their description of strong, electromagnetic and weak interactions \[2\] (together with gravitation \[3\]w hen supergravity \[4\] is included) that supersymmetry can be regarded as a possible invariance of the lagrangian of the world. Therefore it is important to work out its experimental consequences. Many of the new fields introduced as supersym-merry partners of the ordinary fields are heavy (the Work supported in part by the U.S. Department of Energy under Contract EY76-CO3-0068. Copyright: Copyright 2014 Elsevier B.V., All rights reserved.

PY - 1978/7/3

Y1 - 1978/7/3

N2 - Supersymmetric theories involve spinorial partners for the gluons of QCD. If the symmetry breaking is such that they are massless or light, they probably combine with quarks to form families of new, relatively low-lying hadrinic states, which decay into ordinary hadrons and a new, neutrino-like particle. We discuss how present experiments can put limits on their production.

AB - Supersymmetric theories involve spinorial partners for the gluons of QCD. If the symmetry breaking is such that they are massless or light, they probably combine with quarks to form families of new, relatively low-lying hadrinic states, which decay into ordinary hadrons and a new, neutrino-like particle. We discuss how present experiments can put limits on their production.

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Phenomenology of the production, decay, and detection of new hadronic states associated with supersymmetry

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