Neutrino oscillation is a quantum mechanical phenomenon in which a neutrino created with a specific lepton family number ("lepton flavor": electron, muon, or tau) can later be measured to have a different lepton family number. The probability of measuring a particular flavor for a neutrino varies between three known states, as it propagates through space. First predicted by Bruno Pontecorvo in 1957, neutrino oscillation has since been observed by a multitude of experiments in several different contexts. Most notably, the existence of neutrino oscillation resolved the long-standing solar neutrino problem. Neutrino oscillation is of great theoretical and experimental interest, as the precise properties of the process can shed light on several properties of the neutrino. In particular, it implies that the neutrino has a non-zero mass, which requires a modification to the Standard Model of particle physics. The experimental discovery of neutrino oscillation, and thus neutrino mass, by the Super-Kamiokande Observatory and the Sudbury Neutrino Observatories was recognized with the 2015 Nobel Prize for Physics. (Wikipedia).
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
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From playlist Science Unplugged: Neutrinos
NOvA: Building a Next Generation Neutrino Experiment
The NOvA neutrino experiment is searching for the answers to some of the most fundamental questions of the universe. This video documents how collaboration between government research institutions like Fermilab, academia and industry can create one of the largest neutrino detectors in the
From playlist Neutrinos
Why I Love Neutrinos is a series spotlighting those mysterious, abundant, ghostly particles that are all around us. This installment features a compilation of international scientists. For more information on neutrinos, visit the Fermilab website at http://www.fnal.gov.
From playlist Why I Love Neutrinos
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From playlist Science Unplugged: Neutrinos
Nuclear Physics C1 The Neutrino
The neutrino and antineutrino
From playlist Physics - Nuclear Physics and Radioactivity
Teach Astronomy - Solar Oscillations
http://www.teachastronomy.com/ The Sun oscillates or vibrates at many frequencies like a bell. Solar oscillations can be used to study the interior of the Sun just as geologists use seismic waves to study the Earth's interior. In fact, apart from neutrinos this is the only way to reliabl
From playlist 13. Particle Physics and the Sun
CERN News - May 2010: Neutrino oscillation observed by OPERA
First appearance of a tau neutrino event in the OPERA detector at the Gran Sasso Laboratory, proving the neutrino oscillation from the muon type of the CERN beam to the tau type observed.
From playlist CERN News
Quantum SHAPE-SHIFTING: Neutrino Oscillations
Thanks to the Heising-Simons Foundation for supporting this video: http://www.heisingsimons.org CRAZY Double Pendulum Footnote: https://youtu.be/gbJYK7q5ejY Support MinutePhysics on Patreon! http://www.patreon.com/minutephysics Link to Patreon Supporters: http://www.minutephysics.com/su
From playlist MinutePhysics
Pilar Hernandez & Stefania Bordoni: Neutrinos Lecture 1/4 ⎮ 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
The case of the missing neutrinos (Lecture - 04) by G Srinivasan
Time: 10:00 AM Venue: Ramanujan Lecture Hall / Madhava Lecture Hall, ICTS Campus, Bangalore This summer course aims to give a broad perspective on gravity, astrophysics and cosmology and is suitable for advanced undergraduates and graduate students in physics and astronomy. Professor G
From playlist Summer Course 2017: A Journey Through The Universe
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
How do we study neutrino oscillation? | Even Bananas
Neutrinos are weird. Scientists didn’t expect them to change type as they travel, but they do! So how do we study this weird phenomenon of neutrino oscillation? On this episode of #EvenBananas, neutrino physicist Dr. Kirsty Duffy and special guest Dr. Anne Norrick will explore how to build
From playlist Neutrinos
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)
Supernova Neutrinos by Sovan Chakravarty
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 LH
From playlist Particle Physics: Phenomena, Puzzles, Promises - (Edited)
NOvA: Exploring Neutrino Mysteries
Neutrinos are a mystery to physicists. They exist in three different flavors and mass states and may be able to give hints about the origins of the matter-dominated universe. A new long-baseline experiment led by Fermilab called NOvA may provide some answers. There is a live feed of the f
From playlist Neutrinos
2018 Fermilab Physics Slam: Explaining neutrino oscillations
For his 2018 Physics Slam presentation at Fermilab, Northwestern University scientist André de Gouvêa took on one of the most fascinating particles in physics: the neutrino. In 10 minutes, he explained—with the help of a few props—what neutrinos are and how physicists discovered that these
From playlist Fermilab's Physics Slams
L8.4 Neutrino Physics: Experimental Study
MIT 8.701 Introduction to Nuclear and Particle Physics, Fall 2020 Instructor: Markus Klute View the complete course: https://ocw.mit.edu/8-701F20 YouTube Playlist: https://www.youtube.com/playlist?list=PLUl4u3cNGP60Do91PdN978llIsvjKW0au There are numerous sources for neutrinos which allo
From playlist MIT 8.701 Introduction to Nuclear and Particle Physics, Fall 2020
The elusive neutrino is the most difficult to detect of the particles of the standard model. However the story is more complex than that. When a neutrino actually interacts, it is easy to detect. However neutrinos interact only rarely. In this video, Fermilab’s Dr. Don Lincoln explains
From playlist Neutrinos