#QuantumChromodynamics
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victoriaanisa · 3 months ago
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X(3960) is a tetraquark, theoretical analysis suggests.
Exotic particle Artist’s impression of a tetraquark showing its four constituent quarks. (Courtesy: CERN)
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alexanderrogge · 1 year ago
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Brookhaven National Laboratory - Calculations reveal high-resolution view of quarks inside protons:
Quarks #Proton #GeneralizedPartonDistribution #GPD #QuantumChromodynamics #LatticeQCD #ComputationalPhysics #Physics
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laocommunity · 1 year ago
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Mind-Blowing Calculation Reveals the Surprising Reason Heavy Quarks Follow the Flow: You Won't Believe the Science Behind It!
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Mind-Blowing Calculation Reveals the Surprising Reason Heavy Quarks Follow the Flow: You Won't Believe the Science Behind It! Mind-Blowing Calculation Reveals the Surprising Reason Heavy Quarks Follow the Flow: You Won't Believe the Science Behind It! Have you ever heard of heavy quarks? They are elementary particles that are usually found in the nuclei of atoms. They are considered heavy because they have a mass that is several times greater than that of a proton. Scientists have long been baffled by the question of why heavy quarks follow the flow, particularly in high-energy collisions. However, a new study has revealed a surprising answer that has left scientists reeling. The Study The study was conducted by a team of scientists at the RIKEN Nishina Center for Accelerator-Based Science in Japan. They used a technique known as the JIMWLK renormalization group equation to mimic the collisions of heavy quarks in the Large Hadron Collider. The team found that heavy quarks follow the flow due to a phenomenon known as the chiral magnetic effect. This phenomenon arises due to the interaction between the spin and momentum of the particles. The chiral magnetic effect is a manifestation of the topologically non-trivial structures of quantum chromodynamics (QCD) fields, which describe the behavior of subatomic particles. The effect is often used to explain the anomalous electrical conductivity of certain materials at low temperatures. The Science Behind It The chiral magnetic effect occurs due to the strong interaction, which is responsible for the forces that hold subatomic particles together. In this interaction, the quarks and gluons that make up the particles exchange virtual particles known as mesons. These mesons can carry both spin and momentum, and interact with the magnetic field of the collision. This interaction causes the chiral magnetic effect, which leads to the alignment of the spin and momentum of the heavy quarks with the direction of the magnetic field. This alignment creates an electric current that, in turn, produces an electromagnetic field that affects the motion of the quarks. The chiral magnetic effect has been observed in experiments with heavy-ion collisions, where the magnetic field is generated due to the motion of the ions. However, the recent study is the first to provide a quantitative explanation of the effect in relation to the flow of heavy quarks. The Implications The discovery of the chiral magnetic effect in heavy quarks in high-energy collisions is groundbreaking. It sheds light on the fundamental principles of QCD and provides new avenues for research in the field. The study also has important implications for the understanding of the quark-gluon plasma, a state of matter that existed in the early universe. The plasma is believed to have formed immediately after the Big Bang, and understanding its behavior is crucial for understanding the origins of the universe. In Conclusion The recent study on the chiral magnetic effect in heavy quarks is a groundbreaking achievement. It provides a new understanding of the fundamental principles of QCD and lays the groundwork for further research in the field. The discovery also has important implications for the understanding of the origins of the universe, particularly in relation to the behavior of the quark-gluon plasma. It is a testament to the power of scientific discovery and the ever-expanding boundaries of human knowledge. #heavymetals #chiralmagneticeffect #quantumchromodynamics #quarks #gluons #LHC #groundbreakingdiscovery #quarkgluonplasma #earlyuniverseorigins Summary: A recent study has discovered that heavy quarks follow the flow due to a phenomenon called the chiral magnetic effect, which arises due to the interaction between the spin and momentum of the particles. The discovery is groundbreaking and provides a new understanding of the fundamental principles of quantum chromodynamics and the origins of the universe. #TECH Read the full article
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andres-ero · 7 years ago
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Are just preschool drawings or the most advanced in theoretical physics ??? #physics #theoreticalphysics #science #maths #valencia #qcd #quantumphysics #quantumchromodynamics
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massofamooneh-blog · 8 years ago
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Screenshot this photo and play with the black and white filter, literally looks and feels like a #Rainbow #heart #pulse!!^.^ #Live you #love #true #all #inspiration #inspired #motivation #motivated #science #quantum - heart #torsion #torque #truth #secret #quantumchromodynamics
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royalvoxpost · 5 years ago
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#ParticlePhysics #QuantumChromodynamics: scientists measured the temperature of quark matter under conditions akin to the inside of a neutron star collision. The findings suggest that an exotic state of matter can emerge at high temperatures and densities https://t.co/4M54PJsRXh https://t.co/D14HBNveC6
#ParticlePhysics #QuantumChromodynamics: scientists measured the temperature of quark matter under conditions akin to the inside of a neutron star collision. The findings suggest that an exotic state of matter can emerge at high temperatures and densities https://t.co/4M54PJsRXh pic.twitter.com/D14HBNveC6
— The Royal Vox Post (@RoyalVoxPost) July 30, 2019
via Twitter https://twitter.com/RoyalVoxPost July 30, 2019 at 05:53PM
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infectiousdesire · 10 years ago
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It's amazing that "like colours repel and opposite colours attract" is a valid statement in physics.
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hislordshipthethird-blog · 10 years ago
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Cat in a box or why QCD sucks! 
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victoriaanisa · 4 months ago
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More Details:
Title: International Research Awards on High Energy Physics and Computational Science by ScienceFather.
Website: physics.sciencefather.com
Visit Our Award Nomination : https://x-i.me/hepnom
Contact us : [email protected]
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victoriaanisa · 4 months ago
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High-energy collision study reveals new insights into quark-gluon plasma
More Details:
Title: International Research Awards on High Energy Physics and Computational Science by ScienceFather.
Website: physics.sciencefather.com
Visit Our Award Nomination : https://x-i.me/hepnom
Contact us : [email protected]
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massofamooneh-blog · 8 years ago
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Turns out when tune into my mind, basically what I attempt to share artfully-ish on this page^.^ it turns out we start talking about things like: #hydrostaticsequilibrium #quantumchromodynamics #chaos theory #stringtheory #superstringtheory #matrixes #supermatrixes #field theory Theories of #relativity #crystallography #Astrophysics #Bereziniansuperdeterminant #loopquantumgravity #Ntheory #Mtheory #Eightfoldway theory #Planckenergy #plancktime #planckmass tons of models and sessions of credited theorists/ tists of some sort all summed up for fun really the best I can express artfully into visualization to all of you=] That photo above? Turns out once you figure out #angular measurements in matrixes that allows you to find out a lot about xrays through #light being radiated. Oddly enough "all" lens look through a #V violet layer then proceeds to the #hexagon #cell structure you see me going on so much about^.^ One could figure where we are and where we're going in the galaxy with that kinda info if used right<3 Most of my work spawned from passion of #finalfantasy and life, if you played it and gained the romance and passion for life, then you are #Lit!! Haha^.^ (Jk I still love you all of course!) I stride to find the love that I see in see in a game, I want to manifest it into life and share it with all of you!! <3 #Live you #love true all, lets grow together forever stronger because of our willpower to never give in;)
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royalvoxpost · 6 years ago
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#QuantumChromodynamics : Researcher develops a special type of optical lattice to simulate quantum many-body phenomena that are otherwise inaccessible to experimental exploration, creating new bridges between classical and quantum physics -https://t.co/qhQXNm9Rk4 #CondensedMatter https://t.co/5zE7cP0OYg
#QuantumChromodynamics : Researcher develops a special type of optical lattice to simulate quantum many-body phenomena that are otherwise inaccessible to experimental exploration, creating new bridges between classical and quantum physics -https://t.co/qhQXNm9Rk4 #CondensedMatter pic.twitter.com/5zE7cP0OYg
— The Royal Vox Post (@RoyalVoxPost) October 22, 2018
via Twitter https://twitter.com/RoyalVoxPost October 22, 2018 at 05:07PM
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