Is That 'Bump' a New Particle?
http://edu-observatory.org/olli/42/Week6.html



Is That 'Bump' a New Particle?
  Kaplan_Bump.mp4

  


The Large Hadron Collider
  https://home.cern/science/accelerators/large-hadron-collider
  https://home.cern/news?audience=23

  


  


A Video Tour of the Standard Model  16+ min
  https://www.quantamagazine.org/a-video-tour-of-the-standard-model-20210716/
 
The Higgs Bozon Explained  7+ min
  Higgs_Boson_Explained.mp4
 
The Discovery Of The Higgs Boson America's Role 4 min
  America_Role.mp4

  

Rare decay of the Higgs boson may point to physics beyond the 
Standard Model
  https://phys.org/news/2024-01-rare-decay-higgs-boson-physics.html

  Particle physicists have detected a novel decay of the Higgs
  boson for the first time, revealing a slight discrepancy in
  the predictions of the Standard Model and perhaps pointing
  to new physics beyond it. The findings are published in the
  journal Physical Review Letters.

  The Higgs boson, predicted theoretically since the 1960s,
  was finally detected in 2012 at the CERN laboratory in
  Europe. As a quantum field it permeates all of space,
  through which other particles move, acquiring mass via their
  interaction with the Higgs field that can be roughly
  envisioned as a kind of resistance to their motion.


CERN Confirms Ultra-Rare Particle Transformation, Hints at New Physics
  https://www.sciencealert.com/cern-confirms-ultra-rare-particle-transformation-hints-at-new-physics

  It's exciting stuff. The reason the team has been pursuing
  this very specific kind of decay channel so relentlessly for
  more than a decade is because it's what is known as a
  "golden" channel, meaning not only is it incredibly rare,
  but also well predicted by the complex mathematics making up
  the Standard Model of physics.

  That rarity and precision makes it a highly sensitive gauge
  for detecting new physics. Yet it was only by collecting an
  incredible amount of data covering countless particle
  collisions that the team could confirm their discovery as
  accurate according to the famous 'five sigma' standard of
  statistical certainty.


A New Theory to Explain the Higgs Mass
  https://www.quantamagazine.org/higgs-boson-mass-explained-in-new-theory-20150527/
The Physics Still Hiding in the Higgs Boson
  https://www.quantamagazine.org/the-physics-still-hiding-in-the-higgs-boson-20190304/

  Physicists say there’s much we can still learn from the
  Higgs boson itself. What’s known is that the particle’s
  existence confirms a 55-year-old theory about the origin of
  mass in the universe. Its discovery won the 2013 Nobel Prize
  for Peter Higgs and François Englert, two of six theorists
  who proposed this mass-generating mechanism in the 1960s.
  The mechanism involves a field permeating all of space. The
  Higgs particle is a ripple, or quantum fluctuation, in this
  Higgs field. Because quantum mechanics tangles up the
  particles and fields of nature, the presence of the Higgs
  field spills over into other quantum fields; it’s this
  coupling that gives their associated particles mass.



The Year in Computer Science (2024)
  https://www.quantamagazine.org/the-year-in-computer-science-20241219/

Latest Science (all sciences)
  http://edu-observatory.org/media/Science/index.html#LATEST

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