The MAJORANA project (styled Majorana) is an international effort to search for neutrinoless double-beta (0νββ) decay in 76Ge. The project builds upon the work of previous experiments, notably those performed by the Heidelberg–Moscow and collaborations, which used high-purity germanium (HPGe) detectors, to study neutrinoless double-beta decay. The first stage of the project is the Majorana Demonstrator (MJD), designed to demonstrate the technique and evaluate a ton-scale experiment. Cryostats housing up to 40 kg of natural and enriched germanium detectors are being deployed in low-background vacuum cryostats, underground (1,480 m) at the Sanford Underground Laboratory in Lead, South Dakota. Following the Demonstrator, the collaboration intends to merge with the GERDA collaboration to build a much larger experiment called , see [1]. (Wikipedia).
Le "Large Hadron Collider" (français)
un apreçu du grand collisionneur de hadrons (LHC) et de son programme de recherche
From playlist Français
il Large Hadron Collider (Italiano)
Una panoramica sul progetto LHC ed i suoi campi di ricerca.
From playlist Italiano
Introduction to the C programming language. Part of a larger series teaching programming. See http://codeschool.org
From playlist The C language
Plus qu’une semaine avant la collision entre le #CERN et ses voisins pendant les @Automnales ! http://cern.ch/go/CERNautomnales #CERNvoisins
From playlist Français
Introduction to the C programming language. Part of a larger series teaching programming. See http://codeschool.org
From playlist The C language
How do we discover MAJORANA PARTICLES in NANOWIRES?
Majorana particles are real solutions of the Dirac equation, representing their own antiparticles. In the condensed matter context, Majorana refers to electronic modes in nanostructures described by peculiar ‘pulled-apart’ wavefunctions and by hypothesized non-Abelian exchange. This last
From playlist Sergey Frolov's talks
Superconductors and semiconductors, nanowires and majorana, research and integrity
Sergey Frolov, University of Pittsburgh This talk will be on three topics, but in a way it is one. My research focus and passion is the proximity effect. It is when superconducting correlations are induced in a non-superconducting material. Because superconductivity is always tied to a sp
From playlist Sergey Frolov's talks
Could This Elusive Particle Reshape the Standard Model?
Physicists are on the hunt for a mysterious particle that could totally change our understanding of the universe. Some scientists think this elusive particle is hiding in plain sight. » Subscribe to Seeker! http://bit.ly/subscribeseeker (then hit the little 🔔 icon and select "all.") »
From playlist Elements | Seeker
Non-Abelian Anyons: From Majoranas to Parafermions by Sumathi Rao
ICTS In-house 2022 Organizers: Chandramouli, Omkar, Priyadarshi, Tuneer Date and Time: 20th to 22nd April, 2022 Venue: Ramanujan Hall inhouse@icts.res.in An exclusive three-day event to exchange ideas and research topics amongst members of ICTS.
From playlist ICTS In-house 2022
Fractionalizing Majorana Fermions - Ady Stern
DISCUSSION MEETING : ADVANCES IN GRAPHENE, MAJORANA FERMIONS, QUANTUM COMPUTATION DATES Wednesday 19 Dec, 2012 - Friday 21 Dec, 2012 VENUE Auditorium, New Physical Sciences Building, IISc Quantum computation is one of the most fundamental and important research topics today, from both th
From playlist Advances in Graphene, Majorana fermions, Quantum computation
Neutrinos, Matter, and Antimatter: The Yin Yang of the Big Bang
What happened to all of the universe's antimatter? Can a particle be its own anti-particle? And how do you build an experiment to find out? In this program, particle physicists reveal their hunt for a neutrino event so rare, it happens to a single atom at most once every 10,000,000,000,0
From playlist Space & The Cosmos
Advances in Graphene, Majorana Fermions, Quantum Computation ( 2 ) - Sankar Das Sarma
Speaker : Sankar Das Sarma (Univeristy of Maryland, USA) Date and Time : 19 Dec 2012, 04:30 PM Venue : Auditorium, New Physical Sciences Building, IISc These lectures will cover three modern topics in physics: graphene, quantum computation, and Majorana fermions. Graphene is a two-dimens
From playlist Advances in Graphene, Majorana fermions, Quantum computation
Transport at surfaces of topological insulators - Diptiman Sen
DISCUSSION MEETING : ADVANCES IN GRAPHENE, MAJORANA FERMIONS, QUANTUM COMPUTATION DATES Wednesday 19 Dec, 2012 - Friday 21 Dec, 2012 VENUE Auditorium, New Physical Sciences Building, IISc Quantum computation is one of the most fundamental and important research topics today, from both th
From playlist Advances in Graphene, Majorana fermions, Quantum computation
Advances in Graphene, Majorana Fermions, Quantum Computation ( 3 ) - Sankar Das Sarma
Speaker : Sankar Das Sarma (Univeristy of Maryland, USA) Date and Time : 19 Dec 2012, 04:30 PM Venue : Auditorium, New Physical Sciences Building, IISc These lectures will cover three modern topics in physics: graphene, quantum computation, and Majorana fermions. Graphene is a two-dimens
From playlist Advances in Graphene, Majorana fermions, Quantum computation
DesmosLIVE: An Exploration of Desmos + Mathalicious
Kate Nowak of Mathalicious explores a few Mathalicious lessons with Desmos
From playlist Desmos LIVE
Advances in Graphene, Majorana Fermions, Quantum Computation ( 1 ) - Sankar Das Sarma
Speaker : Sankar Das Sarma (Univeristy of Maryland, USA) Date and Time : 19 Dec 2012, 04:30 PM Venue : Auditorium, New Physical Sciences Building, IISc These lectures will cover three modern topics in physics: graphene, quantum computation, and Majorana fermions. Graphene is a two-dimens
From playlist Advances in Graphene, Majorana fermions, Quantum computation