3 edition of Massive neutrinos tests of fundamental symmetries found in the catalog.
|Other titles||Moriond Workshops.|
|Statement||edited by O. Fackler, G. Fontaine, J. Trân Thanh Vân.|
|Contributions||Tran, J. Thanh Van., Fackler, O., Fontaine, G.|
|LC Classifications||QC793 .R45 1991c|
|The Physical Object|
|Pagination||xviii, 473 p. :|
|Number of Pages||473|
Since he is director at the Max‐Planck Institute for Nuclear Physics in Heidelberg and head of the Cooled and Stored Ions Division. His main research focus is on precision measurements of atomic and nuclear ground state properties as well as tests of fundamental symmetries using Penning by: 4. adshelp[at] The ADS is operated by the Smithsonian Astrophysical Observatory under NASA Cooperative Agreement NNX16AC86A.
Full Description: "The recent groundbreaking discovery of nonzero neutrino masses and oscillations has put the spotlight on massive neutrinos as one of the key windows on physics beyond the standard model as well as into the early universe. This third edition of the invaluable book Massive Neutrinos in Physics and Astrophysics is an introduction to the various issues related to the theory and. COLLIDER TESTS OF FUNDAMENTAL SYMMETRIES AND NEUTRINO PROPERTIES. SEPTEMBER HAO-LIN LI B.S., NANKAI UNIVERSITY Ph.D., UNIVERSITY OF MASSACHUSETTS AMHERST Directed by: Professor Michael J. Ramsey-Musolf The CP parity of the Higgs boson and the details of the electroweak symmetryAuthor: Haolin Li.
Progress in Particle and Nuclear Physics, Volume 26 covers the significant advances in understanding the fundamentals of particle and nuclear physics. This volume is divided into four chapters, and begins with a brief overview of the various possible ideas beyond the standard model, the problem they address and their experimental tests. Neutrino Properties and Tests of Symmetries. By A De Gouvêa. Abstract. The fact that neutrinos have mass allows them to possess many other properties, like a magnetic dipole moment and a finite decay width. I discuss how precision neutrino experiments are used to test some of the most fundamental principles of physics at unprecedented levelsAuthor: A De Gouvêa.
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The subject of this workshop focused on the tests of fundamental laws in physics and on the search for new and exotic phenomena.
Special emphasis was given to the 17 keV neutrino experiments, to general relativity and gravitational waves and to nonaccelerator physics: solar neutrinos, dark matter and tests of fundamental : O. Fackler, G. Fontaine. COVID Resources.
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Following an analysis of physical states of neutrinos, and especially the distinction between Dirac and Majorana neutrinos, we make a formal analysis of the neutrino mass matrix. We then discuss Double Beta Decay, which provides the only practical test for the existence of Majorana neutrinos.
His current research in neutrino physics is the study of mechanisms of neutrino-less double beta decay other than the mass mechanism, in particular: the emission and reabsorption of hypothetical sterile neutrinos, the emission of a scalar particle (Majoron), and, with L.
Graf, the contribution of hitherto unknown dimension-6 and dimension-9 effective operators. Abstract. The sessions on Tests of Fundamental Symmetries at CIPANP97 spanned a wide range of topics.
Experiments in this field are extremely challenging, often spanning a decade or more from proposal to completion; highlights included first reports of several new and preliminary results of high precision measurements probing symmetry violations in the strong and weak interactions.
The Left-Right Symmetric Model (LRSM) proposes a natural explanation of the smallness of the neutrino mass and its connection to the high scale spontaneous parity violation. I study the prospects of searching the heavy right-handed neutrinos and measuring the mixing between the light and heavy neutrinos in the framework of the minimal LRSM at the future TeV hadron : Haolin Li.
arXivv4 [hep-ph] 12 Mar Neutrino HelicityReversaland Fundamental Symmetries U. Jentschura1,2 and B. Wundt1 1Department of Physics, Missouri University of Science and Technology, Rolla, MissouriUSA 2MTA–DE Particle Physics Research Group, 51, H Debrecen, Hungary A rather elusive helicity reversal occurs in a gedanken experiment in which a massive left Cited by: 7.
Of interest are the formation and decays of N*, Delta, Lambda, and Sigma resonances, along with tests of fundamental symmetries in eta decays. The studies include careful measurements of the Author: Peter Rowlands.
Massive Neutrinos: Investigating their Theoretical Origin and Phenomenology mv = m L - mD M -1 m D v T R Fundamental Symmetries and Rare Decays Julian Heeck Max-Planck-Institut fur Kernphysik, Heidelberg IMPRS Seminar based on J.H., PRL(), J.H., Werner Rodejohann, EPL().
This article provides a coarse-grained review on the experimental tests of fundamental discrete symmetries, focusing on those which appear to be deeply ingrained in nature, or at least rooted into the description of it which we are currently capable of providing, namely those related to space-time inversions and particle/anti-particle : M S Sozzi.
Cosmic neutrinos have been playing a key role in cosmology since the discovery of their mass. They can affect cosmological observables and have several implications being the only hot dark matter candidates that we currently know to exist.
The combination of massive neutrinos and an adequate theory of gravity provide a perfect scenario to address questions on the dark sector that have. Special emphasis was given to the 17 keV neutrino experiments, to general relativity and gravitational waves and to nonaccelerator physics: solar neutrinos, dark matter and tests of fundamental.
Neutrino experiments are unique probes of several fundamental space-time symmetries, including invariance under CP and Lorentz transformations. I discuss how precision neutrino experiments are used to test some of the most fundamental principles of physics at unprecedented levels.
Sterile neutrinos (or inert neutrinos) are hypothetical particles (neutral leptons – neutrinos) that interact only via gravity and do not interact via any of the fundamental interactions of the Standard term sterile neutrino is used to distinguish them from the known active neutrinos in the Standard Model, which are charged under the weak interaction.
(test of bound state QED), muon g-2, electron EDM searches in polar diatomic molecules, polarized proton-proton scattering with PHENIX collaboration at RHIC - to measure gand u and d, new muon g-2 Fundamental Symmetries National Nuclear Physics Summer School, Stony Brook University, JulyD.
Kawall, 2. This volume provides detailed insight into the field of precision spectroscopy and fundamental physics with particles confined in traps. It comprises experiments with electrons and positrons, protons. A brief account of recent news about solar models and solar neutrino experiments is presented.
The predictions of the most recent standard models are compared before emphasizing some difficulties for non standard models. The experimental results are given and some important projects are briefly presented.
Finally the possible variation of the neutrino flux with time is discussed. Fundamental Symmetry Tests with Nucleons, Nuclei, and Atoms Conveners: K.
Kumar, Z.-T. Lu, M. Ramsey-Musolf Overview Despite the success of the Standard Model in explaining so many subatomic physics phenomena, we recognize that the model is incomplete and must eventually give way to a more fundamental description of nature.
Double beta decay is a fundamental test of the conservation of total lepton number, and specifically remains our only practical test of Majorana neutrino masses, which are essential to the most plausible scheme (the see-saw mechanism) for explaining the anomalously small masses of neutrinos.
This book shows the usefulness of the nucleus as a laboratory for learning about basic symmetries and fundamental interactions. It is aimed at advanced graduate students and beginning researchers, but should be useful to advanced researchers as well.
Nuclear and particle physicists will find it particularly useful. Contents. The Network in Neutrinos, Nuclear Astrophysics, and Symmetries (N3AS) is a multi-institutional collaboration dedicated to recruiting and training postdoctoral researchers interested in neutrino physics and astrophysics, nuclear astrophysics topics ranging from supernova and neutron star modeling to dark matter, and fundamental symmetries.Massive Neutrinos: Tests of Fundamental Symmetries; proceedings of the XXVth Rencontre de Moriond, held January 26 - February 2,in Les Arcs, Savoie, France.
Moriond Workshop Series. Edited by O. Fackler, G. Fontaine and J. Trân Thanh Vân.Research Topics The research performed in the IMPRS on precision tests of fundamental symmetries covers broad aspects in Particle Physics, Nuclear Physics, Atomic Physics and Astroparticle Physics, for instance: In one such model dark energy couples to massive neutrinos, inducing a very specific growth of the neutrino mass.