The Scattering and Neutrino Detector (SND) at the Large Hadron Collider (LHC), CERN, is currently being built for the detection of the collider neutrinos. The primary goal of SND is to measure the p+p --> +X process and search for the feebly interacting particles. It will be operational from 2022, during the LHC-Run 3 (2022-2024). SND will be installed in an empty tunnel- TI18 that links the LHC and Super Proton Synchrotron, 480m away from the ATLAS experiment interaction point in the fast forward region and along the beam collision axis. In February 2020, the Search for Hidden Particle (SHiP) collaboration expressed its interest in neutrino-measurement to the LHC Council (LHCC). The letter of intent for SND was presented in August 2020. Based on LHCC’s recommendation, the Letter of intent was followed by the Technical Design report presented in February 2021. The experiment was later approved in March 2021 by the CERN Research Board to be the ninth experiment at LHC. (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
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
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
ICARUS Neutrino Detector Installation at Fermilab
The ICARUS detector, one of the largest liquid-argon neutrino hunters in the world, makes the last leg of its international journey into its new home at the U.S. Department of Energy’s Fermi National Accelerator Laboratory. The detector was shipped to Fermilab in two modules in 2017. One y
From playlist Detectors and Accelerators
How do experimenters detect neutrinos?
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
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
A Telescope Buried in a Gigaton of Ice
Detecting neutrinos is no easy feat. Because they rarely interact with matter, one has to cast a wide net and shield the detector from the much louder, and more interactive particles hitting the Earth at all times. Experimental physicist Francis Halzen's solution was simple—or so he makes
From playlist Technology
Nathan Whitehorn - Neutrino in a haystack: computational challenges for IceCube Neutrino Observatory
Recorded 01 December 2021. Nathan Whitehorn of Michigan State University presents "Finding a neutrino in a haystack: computational challenges for the IceCube Neutrino Observatory" at IPAM's Workshop IV: Big Data in Multi-Messenger Astrophysics. Abstract: Neutrinos provide a unique view of
From playlist Workshop: Big Data in Multi-Messenger Astrophysics
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
PROGRAM LESS TRAVELLED PATH TO THE DARK UNIVERSE ORGANIZERS: Arka Banerjee (IISER Pune), Subinoy Das (IIA, Bangalore), Koushik Dutta (IISER, Kolkata), Raghavan Rangarajan (Ahmedabad University) and Vikram Rentala (IIT Bombay) DATE & TIME: 13 March 2023 to 24 March 2023 VENUE: Ramanujan
From playlist LESS TRAVELLED PATH TO THE DARK UNIVERSE
Direct Dark Matter Detection by Henning Flaecher
DISCUSSION MEETING HUNTING SUSY @ HL-LHC (ONLINE) ORGANIZERS Satyaki Bhattacharya (SINP, India), Rohini Godbole (IISc, India), Kajari Majumdar (TIFR, India), Prolay Mal (NISER-Bhubaneswar, India), Seema Sharma (IISER-Pune, India), Ritesh K. Singh (IISER-Kolkata, India) and Sanjay Kumar S
From playlist HUNTING SUSY @ HL-LHC (ONLINE) 2021
Dark Matter Direct Detection: Status,Results and Future Plans by Laura Baudis
DISCUSSION MEETING HUNTING SUSY @ HL-LHC (ONLINE) ORGANIZERS Satyaki Bhattacharya (SINP, India), Rohini Godbole (IISc, India), Kajari Majumdar (TIFR, India), Prolay Mal (NISER-Bhubaneswar, India), Seema Sharma (IISER-Pune, India), Ritesh K. Singh (IISER-Kolkata, India) and Sanjay Kumar S
From playlist HUNTING SUSY @ HL-LHC (ONLINE) 2021
High-energy Neutrinos from the Sun as a Discovery tool for Dark matter-electron ...by Ranjan Laha
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 & TIME: 21 November 2022 to 23 November 2022 VENUE: Ramanujan Lecture Hall and Online While t
From playlist Particle Physics: Phenomena, Puzzles, Promises - (Edited)
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
Halo-independent bounds on the non-relativistic effective theory of WIMP-nucleon ...by Arpan Kar
PROGRAM LESS TRAVELLED PATH TO THE DARK UNIVERSE ORGANIZERS: Arka Banerjee (IISER Pune), Subinoy Das (IIA, Bangalore), Koushik Dutta (IISER, Kolkata), Raghavan Rangarajan (Ahmedabad University) and Vikram Rentala (IIT Bombay) DATE & TIME: 13 March 2023 to 24 March 2023 VENUE: Ramanujan
From playlist LESS TRAVELLED PATH TO THE DARK UNIVERSE
Neutrinos: Messengers from a Violent Universe
In this 45-minute presentation Alex Himmel, Wilson Fellow at Fermi National Accelerator Laboratory, explains how neutrinos might provide the answers to many questions that scientists have about the universe. The neutrino is a type of subatomic particle. They are produced in copious quantit
From playlist Neutrinos
Neutrinos from Sun as a Discovery Tool for Dark Matter-Electron Scattering by Tarak Nath Maity
PROGRAM LESS TRAVELLED PATH TO THE DARK UNIVERSE ORGANIZERS: Arka Banerjee (IISER Pune), Subinoy Das (IIA, Bangalore), Koushik Dutta (IISER, Kolkata), Raghavan Rangarajan (Ahmedabad University) and Vikram Rentala (IIT Bombay) DATE & TIME: 13 March 2023 to 24 March 2023 VENUE: Ramanujan
From playlist LESS TRAVELLED PATH TO THE DARK UNIVERSE
Detecting Cosmic Neutrinos with IceCube at the Earth's South Pole - Naoko Kurahashi Nielson
Naoko Kurahashi Nielson Drexel University March 10, 2015 ABSTRACT: The IceCube Neutrino Observatory has recently discovered a diffuse flux of astrophysical neutrinos, neutrinos from beyond the solar system. But how does one collect neutrinos at the South Pole? Why study neutrinos for astr
From playlist Joint IAS/PU Astrophysics Colloquium
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