Neutrino experiments | Neutrinos
Monitored neutrino beams are facilities for the production of neutrinos with unprecedented control of the flux of particles created inside and outside the facility. (Wikipedia).
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
How do experimenters detect neutrinos?
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From playlist Science Unplugged: Neutrinos
Animation: Neutrino Detection in Liquid-Argon Time Projection Chamber
A short animation to show how a Liquid-Argon Time Projection Chamber can detect a neutrino based upon the neutrino's interaction with an argon atom.
From playlist Neutrinos
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From playlist Science Unplugged: Neutrinos
How do you make a neutrino beam?
Neutrinos are notorious for not interacting with anything and yet scientists are able to make beams of neutrinos and point them in very specific directions, hitting targets many hundreds of miles away. In this video, Fermilab’s Dr. Don Lincoln explains the simple and clever technique rese
From playlist Neutrinos
How do we detect neutrinos? | Even Bananas 04
Hold on to your hats! Today we’re talking about how to see the invisible – that’s right, it’s detector time. First up, the bizarre story of the world’s first neutrino detector: Project Poltergeist. Then, MicroBooNE scientist Katrina Miller shows us the materials used to build modern detect
From playlist Neutrinos
How do particle accelerators make neutrinos? | Even Bananas
Neutrinos are neutral, meaning the magnets in a particle accelerator can’t manipulate them. So how can scientists make a dense beam of neutrinos for their experiments? Neutrino physicist Kirsty Duffy and Fermilab accelerator operator Laura Bolt explain the power of protons and how teams ca
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Astronomy Cast 315 - Particle Accelerators
Who knew that destruction could be so informative? Only by smashing particles together with more and more energy, can we truly tease out the fundamental forces of nature. Join us to discover the different kinds of accelerators (both natural and artificial) and why questions they can help u
From playlist Astronomy Cast
What are neutrinos good for? | Even Bananas
Neutrinos are powerful tools for better understanding how the universe works and improving our theories, like the famed Standard Model. But what else are neutrinos good for? Neutrino physicist Kirsty Duffy explains some of the (mostly not-so-practical) ways we might use neutrinos. Referen
From playlist Neutrinos
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
Physics of Water University of Wisconsin - Madison Executive Producer and Host: Clint Sprott
From playlist The Wonders of Physics with Prof. Sprott - CosmoLearning.com
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
Facebook Live: Kick-off for the 2017 LHC physics season
This Facebook Live took place on 24 May 2017. Kick-off for the 2017 LHC physics season! The experiments are now taking data at the LHC for the first time this year. Operations are starting gradually, with just a few proton bunches per beam. The operators who control the most powerful col
From playlist Facebook Live Recordings
PBS Member Stations rely on viewers like you. To support your local station, go to: http://to.pbs.org/DonateSPACE ↓ More info below ↓ Explore the Fermilab YT Channel here: https://www.youtube.com/user/fermilab Why is there something rather than nothing? Well the answer may be found in th
From playlist Space Time!
What Can Wobbling Muons Tell Us About the Particles in our Universe?
Fermilab's Dr. Adam Lyon breaks down the first results from the Muon g-2 experiment in this special public lecture, part of the Fermilab Arts and Lecture Series. On April 7, 2021, the Muon g-2 experiment hosted at the U.S. Department of Energy’s Fermi National Accelerator Laboratory relea
From playlist Muon g-2
Beaming into Matter and Life with Particles and Light by Swapan Chattopadhyay
KAAPI WITH KURIOSITY BEAMING INTO MATTER AND LIFE WITH PARTICLES AND LIGHT SPEAKER: Swapan Chattopadhyay (Fermi National Accelerator Laboratory, USA) WHEN: 4:00 pm to 5:30 pm Sunday, 27 November 2022 WHERE: Jawaharlal Nehru Planetarium, Bengaluru Abstract: We will take an adventur
From playlist Kaapi With Kuriosity (A Monthly Public Lecture Series)
Where do the neutrinos that rain down on Earth come from?
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From playlist Science Unplugged: Neutrinos
Japan’s Next Neutrino Hunter Could Revolutionize Particle Physics
Japan approved construction for the world’s next largest neutrino detector. So what can we expect from it? » Subscribe to Seeker! http://bit.ly/subscribeseeker » Watch more Elements! http://bit.ly/ElementsPlaylist » Visit our shop at http://shop.seeker.com Japan announced its next genera
From playlist Elements | Seeker
Teach Astronomy - Solar Neutrinos
http://www.teachastronomy.com/ At the first step in the proton-proton chain in the Sun and other low mass stars neutrinos are produced. Since neutrinos interact so weakly with ordinary matter they flee the Sun almost instantly. Ten to the fourteen neutrinos pass through every square mete
From playlist 13. Particle Physics and the Sun