Tag #Particle Physics

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sueddeutsche.de

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Jul 17, 16:15

CP Symmetry Violation Confirmed in Beauty Baryon at LHC

A research team at CERN's Large Hadron Collider (LHC) has, for the first time, observed CP symmetry violation in a beauty baryon, a type of particle consisting of three quarks, confirming time asymmetry in elementary particle interactions and suggesting the need for further research to explain the u...

CP Symmetry Violation Confirmed in Beauty Baryon at LHC

A research team at CERN's Large Hadron Collider (LHC) has, for the first time, observed CP symmetry violation in a beauty baryon, a type of particle consisting of three quarks, confirming time asymmetry in elementary particle interactions and suggesting the need for further research to explain the u...

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What is the significance of the recent discovery of CP symmetry violation in a beauty baryon at the LHC?

A research team at CERN's Large Hadron Collider (LHC) has discovered CP symmetry violation in a beauty baryon, a type of particle consisting of three quarks. This finding, published 60 years after the initial discovery of CP violation in mesons, demonstrates that the time direction of processes can be determined even at the level of elementary particles. The beauty baryon's decay differs when compared to its antiparticle.

sueddeutsche.de

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May 22, 22:11

Mainz University Receives €66 Million for Physics Research

The Johannes Gutenberg University in Mainz, Germany, secured €66 million for seven years from the DFG and Science Council for its "Prisma++" physics research cluster, while a second JGU proposal, "CoM2Life," for biomaterial development was not funded.

Mainz University Receives €66 Million for Physics Research

The Johannes Gutenberg University in Mainz, Germany, secured €66 million for seven years from the DFG and Science Council for its "Prisma++" physics research cluster, while a second JGU proposal, "CoM2Life," for biomaterial development was not funded.

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Why was the JGU's second research proposal, "CoM2Life," not selected for funding?

The "Prisma++" cluster aims to explore unknown forces and particles to explain phenomena like dark matter, using the MESA particle accelerator. The JGU's second application, "CoM2Life," which focused on developing biomaterials to replace animal testing and create artificial organs, was not selected for funding.

abcnews.go.com

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May 13, 22:13

LHC Transmutes Lead into Gold, Yielding Insights into Particle Physics

Scientists at CERN's Large Hadron Collider have successfully transmuted lead into gold, producing approximately 89,000 atoms per second, totaling 29 picograms between 2015 and 2018, advancing our understanding of particle physics and collider technology.

LHC Transmutes Lead into Gold, Yielding Insights into Particle Physics

Scientists at CERN's Large Hadron Collider have successfully transmuted lead into gold, producing approximately 89,000 atoms per second, totaling 29 picograms between 2015 and 2018, advancing our understanding of particle physics and collider technology.

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How does the process of near-miss atomic collisions in the LHC lead to the creation of gold atoms?

The LHC's gold creation uses electromagnetic fields generated during near-misses of lead atoms, causing them to shed protons and transform into gold. This process, while producing a negligible amount of gold, allows scientists to study particle behavior and refine theoretical models of electromagnetic dissociation, crucial for improving collider performance. This research offers insights into fundamental physics.

arabic.cnn.com

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Feb 19, 10:11

Record-Breaking High-Energy Neutrino Detected

An international team of scientists using the KM3NeT underwater neutrino telescope in the Mediterranean Sea detected a record-breaking high-energy neutrino on February 13, 2023, with energy equivalent to 220 million billion electron volts, suggesting an extreme cosmic event as its source.

Record-Breaking High-Energy Neutrino Detected

An international team of scientists using the KM3NeT underwater neutrino telescope in the Mediterranean Sea detected a record-breaking high-energy neutrino on February 13, 2023, with energy equivalent to 220 million billion electron volts, suggesting an extreme cosmic event as its source.

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What is the significance of the record-breaking high-energy neutrino detected by the KM3NeT telescope?

Scientists using the KM3NeT underwater neutrino telescope detected a record-breaking high-energy neutrino, 30 times more energetic than any previously observed. This neutrino's energy, equivalent to 220 million billion electron volts, surpasses even the Large Hadron Collider's capabilities by 30,000 times. Its origin is currently unknown but speculated to be an extreme cosmic event.

elmundo.es

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Feb 12, 19:19

Highest-Energy Neutrino Detected, Unveiling New Cosmic Mysteries

An international collaboration using the KM3NeT underwater telescope in the Mediterranean Sea detected a 220 PeV neutrino—30 times more energetic than any previously recorded—its origin currently unknown but possibly extragalactic, opening a new frontier in neutrino astronomy.

Highest-Energy Neutrino Detected, Unveiling New Cosmic Mysteries

An international collaboration using the KM3NeT underwater telescope in the Mediterranean Sea detected a 220 PeV neutrino—30 times more energetic than any previously recorded—its origin currently unknown but possibly extragalactic, opening a new frontier in neutrino astronomy.

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What is the significance of the KM3NeT telescope's detection of a 220 PeV neutrino, and what does this reveal about high-energy processes in the universe?

The KM3NeT underwater telescope detected a neutrino with an unprecedented energy of 220 PeV, 30 times higher than any previously observed. This discovery, published in Nature, was made possible by the telescope's sensitive detectors that captured the muon track resulting from the neutrino's interaction with water. The high energy and trajectory strongly suggest a cosmic origin.

elpais.com

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Jan 4, 07:10

Cherenkov Radiation: Faster-Than-Light Particle Emission in Media

Cherenkov radiation, a blue glow observed around nuclear reactors, occurs when a charged particle moves through a medium faster than light's speed in that medium, forming a cone-shaped wavefront. The angle of this cone reveals the particle's speed, enabling detection in various fields.

Cherenkov Radiation: Faster-Than-Light Particle Emission in Media

Cherenkov radiation, a blue glow observed around nuclear reactors, occurs when a charged particle moves through a medium faster than light's speed in that medium, forming a cone-shaped wavefront. The angle of this cone reveals the particle's speed, enabling detection in various fields.

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How is the analogy of a duck swimming in water relevant to understanding Cherenkov radiation?

The analogy of a duck swimming faster than the wave it creates in water perfectly illustrates Cherenkov radiation. Just as the duck's movement creates a characteristic V-shaped wave pattern, a charged particle moving faster than light in a medium generates a cone of Cherenkov radiation. The angle of this cone is directly related to the particle's speed.

dw.com

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Jul 17, 22:11

CERN observes asymmetry in baryons, shedding light on universe's matter dominance

CERN scientists detected a CP symmetry violation in baryons, particles composed of three quarks, using data from the LHCb experiment between 2011 and 2018, providing a potential explanation for the universe's matter dominance over antimatter.

CERN observes asymmetry in baryons, shedding light on universe's matter dominance

CERN scientists detected a CP symmetry violation in baryons, particles composed of three quarks, using data from the LHCb experiment between 2011 and 2018, providing a potential explanation for the universe's matter dominance over antimatter.

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What specific asymmetry in baryon behavior did CERN scientists observe, and what is its significance in explaining the universe's matter-antimatter imbalance?

CERN scientists observed an asymmetry in the behavior of baryons, particles composed of three quarks, potentially explaining the universe's matter dominance. This asymmetry, a violation of CP symmetry, was observed in the decay of approximately 80,000 baryons from millions of collisions analyzed between 2011 and 2018. This finding is a significant step towards understanding why matter prevailed over antimatter after the Big Bang.

elpais.com

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May 19, 19:11

Lisa Randall: Extra Dimensions, Funding Cuts, and the Future of Physics

Theoretical physicist Lisa Randall's groundbreaking Randall-Sundrum model, proposed in 1999, introduced extra dimensions to explain gravity's weakness, complementing Einstein's work; her current concerns involve political impacts on scientific research funding, evidenced by Harvard's significant fun...

Lisa Randall: Extra Dimensions, Funding Cuts, and the Future of Physics

Theoretical physicist Lisa Randall's groundbreaking Randall-Sundrum model, proposed in 1999, introduced extra dimensions to explain gravity's weakness, complementing Einstein's work; her current concerns involve political impacts on scientific research funding, evidenced by Harvard's significant fun...

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How has Lisa Randall's background and personal experiences shaped her scientific career and approach to research?

Randall's work significantly impacts cosmology by addressing limitations in Einstein's theory of general relativity. Her model introduces extra dimensions to explain the relative weakness of gravity compared to other forces, integrating quantum mechanics principles. This innovative approach has earned her consideration for the Nobel Prize in Physics.

elmundo.es

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Mar 8, 16:08

Record-Breaking Neutrino Detected in Mediterranean Sea

On February 13, 2023, the KM3NeT's ARCA detector in the Mediterranean Sea detected a 220 petaelectronvolt neutrino, 30 times more energetic than previously recorded, offering insights into the universe's most energetic phenomena after two years of data analysis.

Record-Breaking Neutrino Detected in Mediterranean Sea

On February 13, 2023, the KM3NeT's ARCA detector in the Mediterranean Sea detected a 220 petaelectronvolt neutrino, 30 times more energetic than previously recorded, offering insights into the universe's most energetic phenomena after two years of data analysis.

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What is the significance of the detection of a 220 petaelectronvolt neutrino by the KM3NeT detector?

The KM3NeT detector in the Mediterranean Sea detected a neutrino with an unprecedented energy of 220 petaelectronvolts on February 13, 2023. This energy is 30 times higher than the previous record. The detection, confirmed after two years of meticulous data analysis, was made by the ARCA detector, one of KM3NeT's two main components.

cnn.com

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Feb 12, 22:19

KM3NeT Detects Highest-Energy Cosmic Neutrino

On February 13, 2023, the KM3NeT underwater neutrino telescope detected a record-breaking 220 million billion electron volt neutrino near the Sicilian coast, 30 times more energetic than any previously detected, potentially originating from a supermassive black hole or gamma-ray burst beyond the Mil...

KM3NeT Detects Highest-Energy Cosmic Neutrino

On February 13, 2023, the KM3NeT underwater neutrino telescope detected a record-breaking 220 million billion electron volt neutrino near the Sicilian coast, 30 times more energetic than any previously detected, potentially originating from a supermassive black hole or gamma-ray burst beyond the Mil...

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What are the potential sources of the detected neutrino, and what challenges remain in identifying its precise origin?

This record-breaking neutrino's energy surpasses the Large Hadron Collider's capabilities by 30,000 times, equivalent to the energy released by splitting one billion uranium atoms. Its origin remains uncertain, possibly a supermassive black hole or gamma-ray burst, highlighting the need for further research to pinpoint the source.

theguardian.com

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Feb 3, 10:10

AI Revolutionizes Particle Physics at CERN, Potentially Revealing Universe's Fate

CERN's next director general, Prof Mark Thomson, announced that advanced AI is revolutionizing particle physics, enabling unprecedented observations at the LHC, potentially revealing whether the universe is stable or could undergo a catastrophic transition.

AI Revolutionizes Particle Physics at CERN, Potentially Revealing Universe's Fate

CERN's next director general, Prof Mark Thomson, announced that advanced AI is revolutionizing particle physics, enabling unprecedented observations at the LHC, potentially revealing whether the universe is stable or could undergo a catastrophic transition.

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What specific challenges does AI address in analyzing data from the LHC, and how does this improve the potential for major discoveries in particle physics?

AI-driven improvements at the LHC are not incremental but transformative, allowing scientists to analyze data far more efficiently than previously possible. This is similar to AI's impact on protein structure prediction, enabling breakthroughs in understanding fundamental physics and potentially revealing the universe's future.

tr.euronews.com

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Dec 18, 19:11

China's Giant Neutrino Detector to Probe Universe's Mysteries

China is constructing a massive neutrino detector, JUNO, to study neutrinos' properties and oscillations, aiming to solve the mystery of the universe's matter-antimatter imbalance and provide insight into the universe's formation.

China's Giant Neutrino Detector to Probe Universe's Mysteries

China is constructing a massive neutrino detector, JUNO, to study neutrinos' properties and oscillations, aiming to solve the mystery of the universe's matter-antimatter imbalance and provide insight into the universe's formation.

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How does JUNO's design and location minimize interference from external factors, and what specific data will it collect?

The Jiangmen Underground Neutrino Observatory (JUNO) in China, set to launch next year, will use its immense size and deep underground location to shield it from cosmic rays, improving its ability to detect neutrinos. This will allow scientists to study neutrinos from two nearby nuclear power plants, observing their oscillations between three types to determine their mass hierarchy.

Showing 1 to 12 of 12 results