Detailed analysis of flavor-changing decays of top quarks as a probe of new physics at the LHC

Debjyoti Bardhan; Gautam Bhattacharyya; Diptimoy Ghosh; Monalisa Patra; Sreerup Raychaudhuri

doi:10.1103/PhysRevD.94.015026

Detailed analysis of flavor-changing decays of top quarks as a probe of new physics at the LHC

Debjyoti Bardhan
, Gautam Bhattacharyya
, Diptimoy Ghosh
, Monalisa Patra
, Sreerup Raychaudhuri

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

18 Scopus citations

Abstract

If the LHC should fail to observe direct signals for new physics, it may become necessary to look for new physics effects in rare events such as flavor-changing decays of the top quark, which, in the standard model, are predicted to be too small to be observed. We set up the theoretical framework in which experimentally accessible results can be expected in models of new physics, and go on to discuss two models of supersymmetry - one with conserved R-parity, and one without R-parity - to illustrate how the flavor-changing signals are predicted in these models. In the latter case, there is a distinct possibility of detecting the rare decay t→c+Z0 at the LHC. We also present a detailed set of very general formulas which can be used to make similar calculations in diverse models of new physics.

Original language	English
Article number	015026
Journal	Physical Review D
Volume	94
Issue number	1
DOIs	https://doi.org/10.1103/PhysRevD.94.015026
State	Published - 22 Jul 2016
Externally published	Yes

ASJC Scopus subject areas

Nuclear and High Energy Physics

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10.1103/PhysRevD.94.015026

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abstract = "If the LHC should fail to observe direct signals for new physics, it may become necessary to look for new physics effects in rare events such as flavor-changing decays of the top quark, which, in the standard model, are predicted to be too small to be observed. We set up the theoretical framework in which experimentally accessible results can be expected in models of new physics, and go on to discuss two models of supersymmetry - one with conserved R-parity, and one without R-parity - to illustrate how the flavor-changing signals are predicted in these models. In the latter case, there is a distinct possibility of detecting the rare decay t→c+Z0 at the LHC. We also present a detailed set of very general formulas which can be used to make similar calculations in diverse models of new physics.",

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AU - Bardhan, Debjyoti

AU - Bhattacharyya, Gautam

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AU - Patra, Monalisa

AU - Raychaudhuri, Sreerup

PY - 2016/7/22

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N2 - If the LHC should fail to observe direct signals for new physics, it may become necessary to look for new physics effects in rare events such as flavor-changing decays of the top quark, which, in the standard model, are predicted to be too small to be observed. We set up the theoretical framework in which experimentally accessible results can be expected in models of new physics, and go on to discuss two models of supersymmetry - one with conserved R-parity, and one without R-parity - to illustrate how the flavor-changing signals are predicted in these models. In the latter case, there is a distinct possibility of detecting the rare decay t→c+Z0 at the LHC. We also present a detailed set of very general formulas which can be used to make similar calculations in diverse models of new physics.

AB - If the LHC should fail to observe direct signals for new physics, it may become necessary to look for new physics effects in rare events such as flavor-changing decays of the top quark, which, in the standard model, are predicted to be too small to be observed. We set up the theoretical framework in which experimentally accessible results can be expected in models of new physics, and go on to discuss two models of supersymmetry - one with conserved R-parity, and one without R-parity - to illustrate how the flavor-changing signals are predicted in these models. In the latter case, there is a distinct possibility of detecting the rare decay t→c+Z0 at the LHC. We also present a detailed set of very general formulas which can be used to make similar calculations in diverse models of new physics.

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Detailed analysis of flavor-changing decays of top quarks as a probe of new physics at the LHC

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