#bosons — Public Fediverse posts
Live and recent posts from across the Fediverse tagged #bosons, aggregated by home.social.
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#KnowledgeByte: "Impossible particles," also referred to as "#Paraparticles," are theoretical particles that would not fit into the current classification of fundamental particles as either #Fermions or #Bosons.
Some recent studies prove that paraparticles, a particle class with unique exchange statistics that was long thought impossible, might indeed exist in nature.
https://knowledgezone.co.in/posts/Impossible-Particles-679110f93672fad387ed6976
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https://www.europesays.com/uk/650077/ Anything-goes “anyons” may be at the root of surprising quantum experiments | MIT News #anyons #bosons #ElectronFractions #fermions #FractionalQuantumAnomalousHallEffect #Magnetism #MITPhysics #Physics #QuantumComputing #ResearchLaboratoryOfElectronics #Science #SenthilTodadri #StableQubits #Superconductivity #UK #UnitedKingdom
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Anything-goes “anyons” may be at the root of surprising quantum experiments | MIT News
In the past year, two separate experiments in two different materials captured the same confounding scenario: the coexis…
#NewsBeep #News #Physics #anyons #AU #Australia #bosons #electronfractions #Fermions #fractionalquantumanomalousHalleffect #magnetism #MITPhysics #quantumcomputing #ResearchLaboratoryofElectronics #Science #SenthilTodadri #stablequbits #Superconductivity
https://www.newsbeep.com/au/365917/ -
https://www.europesays.com/ie/246916/ Anything-goes “anyons” may be at the root of surprising quantum experiments | MIT News #anyons #bosons #Éire #ElectronFractions #Fermions #FractionalQuantumAnomalousHallEffect #IE #Ireland #magnetism #MITPhysics #Physics #QuantumComputing #ResearchLaboratoryOfElectronics #Science #SenthilTodadri #StableQubits #Superconductivity
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#DidYouKnow: #Anyons are exotic quasiparticles that exist only in two-dimensional systems and exhibit unusual exchange statistics, unlike #Bosons or #Fermions.
Their unique properties, arising from the braiding of their world lines, make them promising candidates for use in topological quantum computers.
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#DidYouKnow: #Anyons are exotic quasiparticles that exist only in two-dimensional systems and exhibit unusual exchange statistics, unlike #Bosons or #Fermions.
Their unique properties, arising from the braiding of their world lines, make them promising candidates for use in topological quantum computers.
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#DidYouKnow: #Anyons are exotic quasiparticles that exist only in two-dimensional systems and exhibit unusual exchange statistics, unlike #Bosons or #Fermions.
Their unique properties, arising from the braiding of their world lines, make them promising candidates for use in topological quantum computers.
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#DidYouKnow: #Anyons are exotic quasiparticles that exist only in two-dimensional systems and exhibit unusual exchange statistics, unlike #Bosons or #Fermions.
Their unique properties, arising from the braiding of their world lines, make them promising candidates for use in topological quantum computers.
-
#DidYouKnow: #Anyons are exotic quasiparticles that exist only in two-dimensional systems and exhibit unusual exchange statistics, unlike #Bosons or #Fermions.
Their unique properties, arising from the braiding of their world lines, make them promising candidates for use in topological quantum computers.
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#KnowledgeByte: "Impossible particles," also referred to as "#Paraparticles," are theoretical particles that would not fit into the current classification of fundamental particles as either #Fermions or #Bosons.
Some recent studies prove that paraparticles, a particle class with unique exchange statistics that was long thought impossible, might indeed exist in nature.
https://knowledgezone.co.in/posts/Impossible-Particles-679110f93672fad387ed6976
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"Impossible particles," also referred to as "#Paraparticles," are theoretical particles that would not fit into the current classification of fundamental particles as either #Fermions or #Bosons.
https://knowledgezone.co.in/posts/Impossible-Particles-679110f93672fad387ed6976
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Maybe not practical, but interesting. Compressing boson molecules in a container, then letting them expand by turning them into fermions.
"Instead of heat, this proof-of-principle microscopic engine runs on the energy difference associated with the statistical properties of quantum matter."
https://physicsworld.com/a/no-heat-quantum-engine-makes-its-debut/
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@introvertnudist What you can see in the picture is my "inner universe," subjective reality. Here's a pic of the other side, the "outer universe," objective reality. It's the standard model of particle physics, all the #fermions and force #bosons (and, ok, I added gravity even though we're not really there yet). The circuit motif that surrounds them is because I'm a #transhumanist.
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New boson hidden in beryllium decay? Possibly. New physics? Maybe - Enlarge / A collision in the LHC's Compact Muon Solenoid (CMS) detector produces a Higgs boson sign... more: https://arstechnica.com/?p=1635665 #thestandardmodel #nuclearphysics #science #bosons
