Lorentz-violating neutrino oscillation refers to the quantum phenomenon of neutrino oscillations described in a framework that allows the breakdown of Lorentz invariance. Today, neutrino oscillation or change of one type of neutrino into another is an experimentally verified fact; however, the details of the underlying theory responsible for these processes remain an open issue and an active field of study. The conventional model of neutrino oscillations assumes that neutrinos are massive, which provides a successful description of a wide variety of experiments; however, there are a few oscillation signals that cannot be accommodated within this model, which motivates the study of other descriptions. In a theory with Lorentz violation, neutrinos can oscillate with and without masses and many other novel effects described below appear. The generalization of the theory by incorporating Lorentz violation has shown to provide alternative scenarios to explain all the established experimental data through the construction of global models. (Wikipedia).
Physics - Ch 66 Ch 4 Quantum Mechanics: Schrodinger Eqn (45 of 92) Quantum Nature of Oscillator 1
Visit http://ilectureonline.com for more math and science lectures! In this video I will explain the quantum mature of the oscillator. I will explain the step-function that represent the energy differences between different energy states. The change of the energy can only happen 1 step an
From playlist PHYSICS 66.1 QUANTUM MECHANICS - SCHRODINGER EQUATION
Neutrinos: Nature's Identity Thieves?
The oscillation of neutrinos from one variety to another has long been suspected, but was confirmed only about 15 years ago. In order for these oscillations to occur, neutrinos must have a mass, no matter how slight. Since neutrinos have long been thought to be massless, in a very real w
From playlist Neutrinos
Physics - Ch 66 Ch 4 Quantum Mechanics: Schrodinger Eqn (46 of 92) Quantum Nature of Oscillator 2
Visit http://ilectureonline.com for more math and science lectures! In this video I will explain the quantum mature of the oscillator. Remember a small enough particle will have and behave in wave-like properties, and as particles get larger that no longer have wave-like properties. Quant
From playlist PHYSICS 66.1 QUANTUM MECHANICS - SCHRODINGER EQUATION
Time and again, the study of neutrinos has confounded scientists. One very peculiar property of neutrinos is that only neutrinos with a specific spin configuration have been observed. In this video, Fermilab’s Dr. Don Lincoln talks about this and lays out the possibility that other types
From playlist Neutrinos
Neutrino Physics III - André de Gouvêa
Prospects in Theoretical Physics Particle Physics at the LHC and Beyond Topic: Neutrino Physics III Speaker: André de Gouvêa Date: July 21th, 2017
From playlist PiTP 2017
Physics - Ch 66 Ch 4 Quantum Mechanics: Schrodinger Eqn (49 of 92) How Oscillators Increase Energy
Visit http://ilectureonline.com for more math and science lectures! In this video I will explain how the quantum mechanic oscillator hold on to and increase its energy. Just like a classical oscillator that oscillates back and forth between a minimum (x=-A) and maximum (x=A) amplitude, an
From playlist PHYSICS 66.1 QUANTUM MECHANICS - SCHRODINGER EQUATION
Subscribe to our YouTube Channel for all the latest from World Science U. Visit our Website: http://www.worldscienceu.com/ Like us on Facebook: https://www.facebook.com/worldscienceu Follow us on Twitter: https://twitter.com/worldscienceu
From playlist Science Unplugged: Neutrinos
Neutrino Physics I - André de Gouvêa
Prospects in Theoretical Physics Particle Physics at the LHC and Beyond Topic: Neutrino Physics I Speaker: André de Gouvêa Date: July 18, 2017
From playlist PiTP 2017
An almost coherent state of the 2D quantum harmonic oscillator
This is the first simulation on this channel of Schrödinger's equation in a potential which is not of "infinite well" type. Instead, the potential is a harmonic potential, which has value x^2 + y^2 at point (x,y). Classical trajectories in such a potential are ellipses centered at (0,0).
From playlist Schrödinger's equation
Future Directions in Experimental High Energy Physics by Naba K Mondal
Candles of Darkness DATE :05 June TIME2017 to 09 June 2017 VENUE:Ramanujan Lecture Hall, ICTS Bangalore DARK MATTER AND THE SEARCH FOR PHYSICS BEYOND THE STANDARD MODEL "Darkness is your candle. Your boundaries are your quest."- Jalal-ud-din Rumi of Balkh (1207 - 1273) High energy Phys
From playlist Candles of Darkness
Neutrino Physics II - André de Gouvêa
Neutrino Physics II - André de Gouvêa Prospects in Theoretical Physics Particle Physics at the LHC and Beyond Topic: Neutrino Physics II Speaker: André de Gouvêa Date: July 19th, 2017
From playlist PiTP 2017
AWESOME Electromagnetic force oscillation!!!
In this video i show electromagnetic force oscillation on a ruler. Also i demonstrate the standing wave on a ruler!
From playlist ELECTROMAGNETISM
Lecture 9 | New Revolutions in Particle Physics: Standard Model
(March 30, 2009) Leonard Susskind explains how the Higgs phenomenon interacts masses of quarks and leptons. This course is a continuation of the Fall quarter on particle physics. The material will focus on the Standard Model of particle physics, especially quantum chromodynamics (the the
From playlist Lecture Collection | Particle Physics: Standard Model
Physics - Ch 66 Ch 4 Quantum Mechanics: Schrodinger Eqn (55 of 92) Solution of the Oscillator
Visit http://ilectureonline.com for more math and science lectures! In this video I will explain the solution to the Schrodinger equation to the quantum mechanic oscillator. Assuming the potential energy (a function of the square of the amplitude, A^2) is greater or equal to 1, the soluti
From playlist PHYSICS 66.1 QUANTUM MECHANICS - SCHRODINGER EQUATION
New physics searches in Neutrino Oscillations by Poonam Mehta
DISCUSSION MEETING : PARTICLE PHYSICS: PHENOMENA, PUZZLES, PROMISES ORGANIZERS: Amol Dighe, Rick S Gupta, Sreerup Raychaudhuri and Tuhin S Roy, Department of Theoretical Physics, TIFR, India DATE: 21 November 2022 to 23 November 2022 VENUE: Ramanujan Lecture Hall and Online While the L
From playlist Particle Physics: Phenomena, Puzzles, Promises - (Edited)
Supersymmetry at Low Energy Scales by Sourav Roy
Candles of Darkness DATE: 05 June TIME2017 to 09 June 2017 VENUE:Ramanujan Lecture Hall, ICTS Bangalore DARK MATTER AND THE SEARCH FOR PHYSICS BEYOND THE STANDARD MODEL "Darkness is your candle. Your boundaries are your quest."- Jalal-ud-din Rumi of Balkh (1207 - 1273) High energy Phys
From playlist Candles of Darkness
Pilar Hernandez & Stefania Bordoni: Neutrinos Lecture 4/4 ⎮ CERN
Neutrinos remain enigmatic and elusive particles. They are invaluable astronomical and terrestrial messengers that have provided the first hints of physics beyond the standard model. Despite being the second most abundant particles in the universe, we still know little about them and futur
From playlist CERN Academic Lectures
16. Black-Body Radiation and the Early History of the Universe, Part II
MIT 8.286 The Early Universe, Fall 2013 View the complete course: http://ocw.mit.edu/8-286F13 Instructor: Alan Guth In this lecture, the professor reviewed relativistic energy, relativistic four-momentum, the mass of radiation, radiation in an expanding universe, modification of the Fried
From playlist The Early Universe by Prof. Alan Guth
Lee Roberts, Exploring "Terra Incognita" with the World’s Largest Penning Trap - 15 maggio 2019
https://www.sns.it/it/evento/exploring-terra-incognita-with-the-worlds-largest-penning-trap Colloquio della Classe di Scienze Lee Roberts (Boston University) Exploring "Terra Incognita" with the World’s Largest Penning Trap Abstract The Standard Model provides a very precise prediction
From playlist Colloqui della Classe di Scienze
Physics - Ch 66 Ch 4 Quantum Mechanics: Schrodinger Eqn (48 of 92) How Oscillator Increases energy
Visit http://ilectureonline.com for more math and science lectures! In this video I will explain how the quantum mechanic oscillator hold on to and increase its energy. Just like a classical oscillator that oscillates back and forth between a minimum (x=-A) and maximum (x=A) amplitude, an
From playlist PHYSICS 66.1 QUANTUM MECHANICS - SCHRODINGER EQUATION