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Scientists Excited by Potential New Force of Nature

Scientists Excited by Potential New Force of Nature
3 hours ago
The test track scientists are using to observe muon particles outside of Chicago, Illinois at the Fermilab. (Reidar Hahn/Fermilab via AP)
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Have you ever heard of a muon?
A muon is a very small particle similar to an electron. Electrons and protons are parts of the atoms that make up all matter.
Muons were discovered during an experiment in 1936. Until now, most physicists have only been able to study muons for an extremely short period of time: two microseconds. There are one million microseconds in one second.

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2 experiments defy physics rule book

2 experiments defy physics rule book
Tiny particles called muons not acting as scientists expected
By SETH BORENSTEIN, Associated Press
Published: April 13, 2021, 6:05am
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Nikolai Bondar works on the LHCb Muon system at the European Organization for Nuclear Research Large Hadron Collider facility outside of Geneva in 2018. (Maximilien Brice, Julien Marius Ordan/CERN)
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Preliminary results from two experiments suggest something could be wrong with the basic way physicists think the universe works, a prospect that has the field of particle physics both baffled and thrilled.
Tiny particles called muons aren’t quite doing what is expected of them in two different long-running experiments in the United States and Europe. The confounding results – if proven right – reveal major problems with the rule book physicists use to describe and understand how the universe works at the subatomic level.

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AP Story

AP Story
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New evidence of particles could change the way we understand the universe

New evidence of particles could change the way we understand the universe
By Seth Borenstein
article
Fermi National Accelerator Laboratory(Fermilab) and Robert R. Wilson's "Acqua Alle Funi" sculpture, in Batavia, Illinois on MAY 12, 2013. (Photo By Raymond Boyd/Getty Images)
Preliminary results from two experiments suggest something could be wrong with the basic way physicists think the universe works, a prospect that has the field of particle physics both baffled and thrilled.
Tiny particles called muons aren’t quite doing what is expected of them in two different long-running experiments in the United States and Europe. The confounding results — if proven right — reveal major problems with the rulebook physicists use to describe and understand how the universe works at the subatomic level.

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'Tantalizing' results of experiments defy physics rulebook | News, Sports, Jobs

Seth Borenstein
Preliminary results from two experiments suggest something could be wrong with the basic way physicists think the universe works, a prospect that has the field of particle physics both baffled and thrilled.
Tiny particles called muons aren’t quite doing what is expected of them in two different long-running experiments in the United States and Europe. The confounding results — if proven right — reveal major problems with the rulebook physicists use to describe and understand how the universe works at the subatomic level.
“We think we might be swimming in a sea of background particles all the time that just haven’t been directly discovered,” Fermilab experiment co-chief scientist Chris Polly said in a press conference. “There might be monsters we haven’t yet imagined that are emerging from the vacuum interacting with our muons and this gives us a window into seeing them.”

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'Tantalizing' results of 2 experiments defy physics rulebook

Preliminary results from two experiments suggest something could be wrong with the basic way physicists think the universe works, a prospect that has the field of particle physics both baffled and thrilled.
Tiny particles called muons aren’t quite doing what is expected of them in two different long-running experiments in the United States and Europe. The confounding results — if proven right — reveal major problems with the rulebook physicists use to describe and understand how the universe works at the subatomic level.
“We think we might be swimming in a sea of background particles all the time that just haven’t been directly discovered,” Fermilab experiment co-chief scientist Chris Polly said in a press conference. “There might be monsters we haven’t yet imagined that are emerging from the vacuum interacting with our muons and this gives us a window into seeing them.”

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'Tantalising' results of two experiments defy science rulebook — 'precipice of a new era of physics'

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Source:
Associated Press
Preliminary results from two experiments suggest something could be wrong with the basic way physicists think the universe works, a prospect that has the field of particle physics both baffled and thrilled.
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Sub-atomic particles called “muons” don’t behave in accordance with laws of physics, and a new so-called “force” could lend an explanation.
Source: BBC
Tiny particles called muons aren’t quite doing what is expected of them in two different long-running experiments in the United States and Europe. The confounding results — if proven right — reveal major problems with the rulebook physicists use to describe and understand how the universe works at the subatomic level.

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'Tantalizing' results of 2 experiments defy physics rulebook | Taiwan News

'Tantalizing' results of 2 experiments defy physics rulebook | Taiwan News
taiwannews.com.tw - get the latest breaking news, showbiz & celebrity photos, sport news & rumours, viral videos and top stories from taiwannews.com.tw Daily Mail and Mail on Sunday newspapers.

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Physics rulebook could be rewritten by preliminary results from two experiments on muons

Preliminary results from two experiments suggest something could be wrong with the basic way physicists think the universe works - a prospect that has the field of particle physics both baffled and thrilled.
Tiny particles called muons arenât quite doing what is expected of them in two different long-running experiments in the United States and Europe.
The confounding results - if proven right - reveal major problems with the rulebook physicists use to describe and understand how the universe works at the subatomic level.
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âWe think we might be swimming in a sea of background particles all the time that just havenât been directly discovered,â Fermilab experiment co-chief scientist Chris Polly said in a press conference.

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Scientists discover NEW fifth 'force of nature' like gravity and electromagnetism

Harry Pettit, Senior Digital Technology and Science Reporter
8 Apr 2021, 17:16
SCIENTISTS may have to rewrite our grasp of how the universe works after they unearthed evidence of a FIFTH force of nature.
Preliminary results from two experiments suggest something could be wrong with our understanding of tiny, fundamental particles.
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The Muon g-2 ring at the Fermi National Accelerator Laboratory studies the wobble of tiny particles called MuonsCredit: Eyevine
The prospect that has the field of particle physics both baffled and thrilled.
Subatomic particles called muons aren't quite doing what is expected of them in two long-running experiments in the United States and Europe.

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