A unique model of Dirac neutrino masses is presented.
NOvA is a long-baseline neutrino oscillation experiment with two functionally identical detectors. The detectors are segmented calorimeters, sensitive to neutrino fluxes of various kinds. The experiment can search for oscillations into active and sterile neutrinos and probe the existence of non-standard interactions for neutrinos. The detectors are also sensitive to astrophysical neutrinos...
Neutrino oscillations are the leading mechanism that successfully explain the neutrino flavor transition observed at dedicated detectors from several sources of neutrinos like the Sun, from interactions in the atmosphere of the Earth, and neutrinos from artificial sources such as the ones produced in reactor and accelerator-based experiments. This wealth of data is well described by neutrino...
The DUNE experiment is a long-baseline neutrino facility currently under construction in the US. In this talk, we will give an overview of DUNE covering its main physics goals, and its experimental setup.
El Deep Underground Neutrino Experiment (DUNE) es considerado en la actualidad uno de los experimentos más importantes en el área de física de altas energías. Este experimento buscar la detección de partículas fundamentales conocidas como Neutrinos las cuales tienen unas características energéticas muy singulares y estudiar el decaimiento de protones. Se considera a los neutrinos como la...
Classic artificial intelligence like deep learning is typically used to make sense and to understand the big amount of data obtained in huge and fundamental physical experiments like ATLAS, CMS, LHCb, NOvA, Alice, among others. On the other hand, Artificial Mathematical Intelligence (AMI) is nowadays emerging as a new global form of conceptual artificial intelligence aiming to develop...
In this talk I will describe a low scale renormalizable left-right symmetric theory that successfully explains the observed SM fermion mass hierarchy, the tiny values for the light active neutrino masses and is consistent with the lepton and baryon asymmetries of the Universe, the muon and electron anomalous magnetic moments as well as with the constraints arising from the meson oscillations....
Remember to install root in your laptop following the instructions in the Tutorial section on the Menu
During the +90 years since their theoretical proposal, the interest on neutrinos has steadily increasing. Neutrinos play an important role in different aspects of particle physics, astrophysics and cosmology, and a large community os researchers keep looking for understanding the physics and phenomenology governing these fascinating particles. In this talk, we present an introduction to some...
It is presented an overview of the effective number of relativistic degrees of freedom $N_{eff}$, a parameter related to observations such as the abundance of light nuclei produced during Big-Bang Nucleosynthesis and temperature anisotropies in the Cosmic Microwave Background. Deviations $\Delta N_{eff}$ from the Standard Model prediction $N_{eff} = 3.045$ constitute clear signs of new...
En nuestro trabajo realizamos una parametrización no estándar para la matriz de mezcla unitaria en los leptones, esto con el fin de obtener los observables físicos, esto es: las tres masas de leptones cargados, dos diferencias de masas cuadradas del sector neutro, los tres ángulos de mezcla y la fase de violación CP en este sector. Para esto se consideraron estructuras especiales para las...
In this talk we are going to introduce the Liquid Argon Software (LArSoft), this framework is an important tool in the simulation and reconstruction of different phenomena across liquid argon time projection chambers used in neutrino experiments, the main objective of this talk is allowing the public to know the software structure and the basic steps in the construction of a simulation using...
The main goal of this talk is to give an overview of the so-called
DAPHNE(Detector electronics for Acquiring PHotons from NEutri-
nos) system, a component of the Photon Detection System (PDS) in
DUNE.
In this talk, I will give a brief introduction to the Photon Detection
System (PDS) of DUNE, far detectors in horizontal drift technology.
Nevertheless, I will include an overview of the...
Remember to Install the GLoBES package (Linux/MacOS). Instructions can be found in the Tutorials section on the Menu.
In this short talk, I will review the effect of massive neutrinos on cosmological observables, such as the CMB temperature anisotropies, the matter power spectrum, the growth function of structures and the weak lensing shear.
For the scales and redshifts probed by future probes, the constraints on neutrino mass will increase by even an order of magnitude, depending on the combination of...
