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#particle — Public Fediverse posts

Live and recent posts from across the Fediverse tagged #particle, aggregated by home.social.

  1. CERN Physicists Observe New Exotic Particle

    Physicists with the ATLAS Collaboration at CERN’s Large Hadron Collider (LHC) have observed the Bc*+ meson, an excited…
    #NewsBeep #News #Physics #Antiquark #Atlas #AU #Australia #Bcplusmeson #Bottomantiquark #Charmquark #LHC #Meson #Particle #Photon #proton #Quark #Science
    newsbeep.com/au/695347/

  2. CERN Physicists Observe New Exotic Particle

    Physicists with the ATLAS Collaboration at CERN’s Large Hadron Collider (LHC) have observed the Bc*+ meson, an excited…
    #NewsBeep #News #Physics #Antiquark #Atlas #AU #Australia #Bcplusmeson #Bottomantiquark #Charmquark #LHC #Meson #Particle #Photon #proton #Quark #Science
    newsbeep.com/au/695347/

  3. #Particles seen emerging from empty #space for first time
    By tracing the origins of an unusual, short-lived #particle, researchers have gathered some of the strongest evidence yet that mass can emerge from fluctuations in the vacuum.
    According to #quantum #chromodynamics (#QCD) – widely considered to be our best theory for describing the strong force, which binds quarks inside protons and neutrons – even a perfect vacuum isn’t truly empty.
    newscientist.com/article/25223
    archive.ph/dbv9t

  4. #Particles seen emerging from empty #space for first time
    By tracing the origins of an unusual, short-lived #particle, researchers have gathered some of the strongest evidence yet that mass can emerge from fluctuations in the vacuum.
    According to #quantum #chromodynamics (#QCD) – widely considered to be our best theory for describing the strong force, which binds quarks inside protons and neutrons – even a perfect vacuum isn’t truly empty.
    newscientist.com/article/25223
    archive.ph/dbv9t

  5. seen emerging from empty for first time
    By tracing the origins of an unusual, short-lived , researchers have gathered some of the strongest evidence yet that mass can emerge from fluctuations in the vacuum.
    According to () – widely considered to be our best theory for describing the strong force, which binds quarks inside protons and neutrons – even a perfect vacuum isn’t truly empty.
    newscientist.com/article/25223
    archive.ph/dbv9t

  6. #Particles seen emerging from empty #space for first time
    By tracing the origins of an unusual, short-lived #particle, researchers have gathered some of the strongest evidence yet that mass can emerge from fluctuations in the vacuum.
    According to #quantum #chromodynamics (#QCD) – widely considered to be our best theory for describing the strong force, which binds quarks inside protons and neutrons – even a perfect vacuum isn’t truly empty.
    newscientist.com/article/25223
    archive.ph/dbv9t

  7. #Particles seen emerging from empty #space for first time
    By tracing the origins of an unusual, short-lived #particle, researchers have gathered some of the strongest evidence yet that mass can emerge from fluctuations in the vacuum.
    According to #quantum #chromodynamics (#QCD) – widely considered to be our best theory for describing the strong force, which binds quarks inside protons and neutrons – even a perfect vacuum isn’t truly empty.
    newscientist.com/article/25223
    archive.ph/dbv9t

  8. The particles in the early Universe painted a different picture The Standard Model is well-understood: quarks, leptons, gluons, the photon, the W-and-Z bosons, plus the Higgs boson. But many things looked very different early on. bigthink.com/starts-with-... #physics #particle #particles #EWSB

    The particles in the early Uni...

  9. The particles in the early Universe painted a different picture The Standard Model is well-understood: quarks, leptons, gluons, the photon, the W-and-Z bosons, plus the Higgs boson. But many things looked very different early on. bigthink.com/starts-with-... #physics #particle #particles #EWSB

    The particles in the early Uni...

  10. The particles in the early Universe painted a different picture The Standard Model is well-understood: quarks, leptons, gluons, the photon, the W-and-Z bosons, plus the Higgs boson. But many things looked very different early on. bigthink.com/starts-with-... #physics #particle #particles #EWSB

    The particles in the early Uni...

  11. The particles in the early Universe painted a different picture The Standard Model is well-understood: quarks, leptons, gluons, the photon, the W-and-Z bosons, plus the Higgs boson. But many things looked very different early on. bigthink.com/starts-with-... #physics #particle #particles #EWSB

    The particles in the early Uni...

  12. The particles in the early Universe painted a different picture The Standard Model is well-understood: quarks, leptons, gluons, the photon, the W-and-Z bosons, plus the Higgs boson. But many things looked very different early on. bigthink.com/starts-with-... #physics #particle #particles #EWSB

    The particles in the early Uni...

  13. New Particle Discovery Sheds Light on Origin of Mass

    📰 Original title: This exotic particle could finally explain why matter has mass

    🤖 IA: It's clickbait ⚠️
    👥 Usuarios: It's clickbait ⚠️

    View full AI summary: killbait.com/en/new-particle-d

    #science #physics #particle #mass

  14. New Particle Discovery Sheds Light on Origin of Mass

    📰 Original title: This exotic particle could finally explain why matter has mass

    🤖 IA: It's clickbait ⚠️
    👥 Usuarios: It's clickbait ⚠️

    View full AI summary: killbait.com/en/new-particle-d

    #science #physics #particle #mass

  15. New Particle Discovery Sheds Light on Origin of Mass

    📰 Original title: This exotic particle could finally explain why matter has mass

    🤖 IA: It's clickbait ⚠️
    👥 Usuarios: It's clickbait ⚠️

    View full AI summary: killbait.com/en/new-particle-d

    #science #physics #particle #mass

  16. New Particle Discovery Sheds Light on Origin of Mass

    📰 Original title: This exotic particle could finally explain why matter has mass

    🤖 IA: It's clickbait ⚠️
    👥 Usuarios: It's clickbait ⚠️

    View full AI summary: killbait.com/en/new-particle-d

    #science #physics #particle #mass

  17. #KnowledgeByte: The "#Ghost #Particle" observatory, officially known as the #IceCube Neutrino Observatory, is built in Antarctica because the region provides unique natural conditions necessary to detect elusive particles called neutrinos.

    knowledgezone.co.in/posts/Why-

  18. #paperOfTheDay for Tuesday: "Effective chiral Lagrangians for nucleon-pion interactions and nuclear forces" from 1991. This is one of the foundational papers of chiral effective field theory.
    In principle, the interactions of nucleons (i.e. protons, neutrons), like any other interaction on small scales, is governed by the standard model of #particle physics, in particular #quantum chromodynamics. However, it is highly impractical to do calculations this way because below a certain energy (around 1GeV), the QCD force is so strong that it creates bound states, which one can not easily handle in perturbative #quantumFieldTheory . The way out is to use an effective field theory: The resulting objects, however they may arise, of course follow the usual laws of quantum mechanics, and they have certain symmetries governing their possible interactions. One takes these objects -- in the present case nucleons and pions -- as "elementary particles", writes down an ansatz for a Lagrangian, and works with this as usual.
    In order to do perturbation theory, one needs a way to determine which terms are important and which are small corrections, and how the various terms scale under e.g. a change in energy. This "power counting" is more tricky in chiral effective theory than usual, because one has multiple mass scales and their ratios, but one possible way to do it is described in the paper.
    sciencedirect.com/science/arti

  19. Wake up babe, new particle just dropped.

    Xi-cc-plus - four times heavier than the regular proton, behaves like a rubber band.

    This is the first new particle identified after the upgrades to the LHCb detector that were completed in 2023, and only the second time a baryon with two heavy quarks has been observed, the first having being observed by LHCb almost 10 years ago. The result will help theorists test models of quantum chromodynamics, the theory of the strong force that binds quarks into not only conventional baryons and mesons but also more exotic hadrons such as tetraquarks and pentaquarks.”

    home.cern/news/news/physics/lh

    theguardian.com/science/2026/m

    #CERN #Physics #Particle #Proton #LHC #Science

  20. Wake up babe, new particle just dropped.

    Xi-cc-plus - four times heavier than the regular proton, behaves like a rubber band.

    This is the first new particle identified after the upgrades to the LHCb detector that were completed in 2023, and only the second time a baryon with two heavy quarks has been observed, the first having being observed by LHCb almost 10 years ago. The result will help theorists test models of quantum chromodynamics, the theory of the strong force that binds quarks into not only conventional baryons and mesons but also more exotic hadrons such as tetraquarks and pentaquarks.”

    home.cern/news/news/physics/lh

    theguardian.com/science/2026/m

    #CERN #Physics #Particle #Proton #LHC #Science

  21. Why “CPT” is the Universe’s most unbreakable symmetry Some symmetries are always preserved, although things could be different if they weren't. But particle physics's CPT symmetry may truly be unbreakable. bigthink.com/starts-with-... #space #physics #particle #quantum #CPT

    Why "CPT" is the Universe's mo...

  22. The "#Ghost #Particle" observatory, officially known as the #IceCube #Neutrino #Observatory, is built in #Antarctica because the region provides unique natural conditions necessary to detect elusive particles called neutrinos.

    knowledgezone.co.in/posts/Why-

  23. Going in #Circles … It’s Not Always A Bad Thing : Medium

    How #Roses evolved to become the #Flower of #Valentine’sDay : Sci Am

    #Antarctica '#Ghost #Particle' #Observatory gets major upgrade that could 'pave the way' to #Physics breakthroughs : Live Sci

    Latest #KnowledgeLinks

    knowledgezone.co.in/resources/

  24. #particle : a minute part or portion of matter

    - French: particule

    - Italian: particella

    - Portuguese: partícula

    - Spanish: partícula

    ------------

    Try our new word guessing game @ 24hippos.com

  25. How much damage could a cosmic ray do to a human? #AskEthan Cosmic rays come in all varieties of energy and speed, with the most energetic ones outstripping even LHC protons by a factor of millions. What would happen if one hit you? bigthink.com/starts-with-... #space #astro #physics #particle

    Ask Ethan: How much damage cou...

  26. Kaleidoscope effects are usually great - still, I find this a particularly bloody gorgeous one, how about you?

    #notai #psychedelicart #particle #trippyart

  27. #Physicists discovered# neutrinos 70 years ago. The ghostly #particles still have secrets to tell
    Exist they do. Not in scarcity, either. They are most abundant massive #particle in universe, outnumbering protons about a billion to one. Scientists are still grappling with what these particles are about. And neutrinos are not just one type of particle, either, but trio of particles — electron neutrinos, muon neutrinos, and tau neutrinos — and corresponding antimatter.
    sciencenews.org/article/neutri

  28. Still playing with the dancer. I won't say it's the final version but I do like it!

    In case you wanted to know, the particles are released from certain points around an animated object (in this case a dancing figure) with velocity pushing directly away from the source and influenced by the animated figures own motions. It's been done before but I've never coded it, so here is my version. Colour is decided by direction of movement.
    #psychedelicart #trippyart #particle #notai