Capri 2016 : Interplay of Flavour Physics with Electroweak symmetry breaking; Anacapri (NA), Italy; 11-13 June 2016 /

Capri 2016 : Interplay of Flavour Physics with Electroweak symmetry breaking; Anacapri (NA), Italy; 11-13 June 2016 / edited by Giulia Ricciardi [and three others]

"The year 2016 marks the 10th year from the first edition of this successful series of workshops, started in 2006. The first years, the workshop focused on heavy flavors only. In the latest years, it has included other sectors of high energy like light flavours, neutrinos, electroweak symmetry...

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Bibliographic Details
Online Access: Online Access
Other Authors: Ricciardi, G. (Giulia) (Editor)
Other title:Sixth Workshop on Theory, Phenomenology and Experiments in Flavour Physics Interplay of Flavour Physics with Electroweak symmetry breaking.
6th Workshop on Theory, Phenomenology and Experiments in Flavour Physics Interplay of Flavour Physics with Electroweak symmetry breaking.
Format: eBook
Language:English
Published: Amsterdam : Elsevier, 2017.
Series:Nuclear and particle physics proceedings ; v. 285-286.
Subjects:
Neutrinos > Congresses.
Leptons (Nuclear physics) > Congresses.
Electroweak interactions > Congresses.
Description
Summary:"The year 2016 marks the 10th year from the first edition of this successful series of workshops, started in 2006. The first years, the workshop focused on heavy flavors only. In the latest years, it has included other sectors of high energy like light flavours, neutrinos, electroweak symmetry breaking and dark matter, whenever they seemed to present particularly interesting and promising topics.
This year, the scientific focus was on neutrino physics and the interplay of flavour physics and electroweak symmetry breaking, the latter aiming at developing strategies to face the energy and intensity frontiers. Higher energy is the natural path to follow in the exploration of the gauge structure, with the study of the implications of the Higgs data for the SM and the direct search of new physics. Higher intensity is the path to follow for the exploration of the flavour structure with the study of rare or forbidden decays, both in the quark and in the lepton sector, of tiny deviations from the SM expectations, of unification, undiscovered symmetries, the search for other sources of CP violation, and so on."--Page 1.
Item Description:Online version lacks cover.
Physical Description:1 online resource (xiii, 175 pages) : illustrations.
Bibliography:Includes bibliographical references and author index.

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