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Latest Quark matter Stories

07180703f6663347470937f1725b41781
2011-04-25 08:39:30

Berkeley Lab nuclear scientists join with their international colleagues in the latest record-breaking discovery at RHIC Eighteen examples of the heaviest antiparticle ever found, the nucleus of antihelium-4, have been made in the STAR experiment at RHIC, the Relativistic Heavy Ion Collider at the U.S. Department of Energy's Brookhaven National Laboratory. "The STAR experiment is uniquely capable of finding antihelium-4," says the STAR experiment's spokesperson, Nu Xu, of the Nuclear Science...

198617cea45e4b50ec8f2aef0db246521
2011-03-18 10:55:00

Quantum physicists pave the way for investigating new states of matter in ultracold atom mixtures Scientists of the Institute for Quantum Optics and Quantum Information (IQOQI) in Innsbruck, Austria, have reached a milestone in the exploration of quantum gas mixtures. In an international first, the research group led by Rudolf Grimm and Florian Schreck has succeeded in producing controlled strong interactions between two fermionic elements - lithium-6 and potassium-40. This model system not...

23d4692c650ad586a493b1dadca5a81e1
2011-02-16 08:25:33

Direct measurements allow detailed look at how quarks of different flavors contribute to spin Scientists hoping to unravel the mystery of proton spin at the Relativistic Heavy Ion Collider (RHIC), a 2.4-mile-circumference particle accelerator at the U.S. Department of Energy's (DOE) Brookhaven National Laboratory, have a new tool at their disposal "” the first to directly explore how quarks of different types, or "flavors," contribute to the overall spin of the proton. The technique,...

e3ecbf9b8860b44d45469c17d53cf91b1
2010-11-29 10:55:00

After less than three weeks of heavy-ion running, the three experiments studying lead ion collisions at the LHC have already brought new insight into matter as it would have existed in the very first instants of the Universe's life. The ALICE experiment, which is optimized for the study of heavy ions, published two papers just a few days after the start of lead-ion running. Now, the first direct observation of a phenomenon known as jet quenching has been made by both the ATLAS and CMS...

2010-11-27 15:49:26

After less than three weeks of heavy-ion running, the three experiments studying lead ion collisions at the LHC have already brought new insight into matter as it would have existed in the very first instants of the Universe's life. The ALICE experiment, which is optimised for the study of heavy ions, published two papers just a few days after the start of lead-ion running. Now, the first direct observation of a phenomenon known as jet quenching has been made by both the ATLAS and CMS...

b8c19b5005517cad2c58377ec829dd8f1
2010-11-04 07:10:00

Researchers working at the world's highest-energy particle accelerator on the Franco-Swiss border are nearly set to create the Big Bang on a miniature scale. Since 2009, the Large Hadron Collider (LHC) has been smashing protons together, trying to shed light on the essential nature of matter. But for the upcoming experiments, planned for early November and running for four weeks, the team will have the accelerator collide lead ions instead. The collider, managed by the European...

2010-10-15 16:42:23

Modern, compact ion injector will feed new kinds of particles to RHIC and NSRL A new source of ions will soon be the starting point for the beams entering two major research facilities at the U.S. Department of Energy's (DOE) Brookhaven National Laboratory - the Relativistic Heavy Ion Collider (RHIC - http://www.bnl.gov/rhic), where physicists are recreating conditions of the early universe to learn more about the forces that hold matter together, and the NASA Space Radiation Laboratory...

d365a7dcf79d98476f1acd6ef7148dd1
2010-03-04 14:50:00

A worldwide team of researchers, including 10 from Texas A&M University, have for the first time created a particle that is believed to have been in existence immediately after the creation of the universe "“ the so-called "Big Bang" "“ and it could lead to new questions and answers about some of the basic laws of physics because in essence, it creates a new form of matter. Researchers Carl Gagliardi, Saskia Mioduszewski, Robert Tribble, Matthew Cervantes, Rory Clarke, Martin...

2010-02-17 14:05:00

Two University of Colorado at Boulder physicists are part of a collaborative team working with the U.S. Department of Energy's Brookhaven National Laboratory in New York that have created the hottest temperature matter ever measured in the universe -- 7.2 trillion degrees Fahrenheit. The team used Brookhaven's giant atom smasher, the Relativistic Heavy Ion Collider, or RHIC, to ram charged gold particles into each other billions of times, creating a "quark-gluon plasma" with a temperature...

de044e6f007dd575eef5d4fb556620ee1
2010-02-16 12:40:00

Scientists at the U.S. Department of Energy's Brookhaven National Laboratory in New York report they have created the hottest temperature in the lab -- 4 trillion degrees Celsius -- which is thought to be consistent with actual temperatures that existed when the universe was born. The Relativistic Heavy Ion Collider (RHIC) was used to smash gold ions together to make super-heated explosions that lasted only milliseconds. RHIC is a particle accelerator that is 2.4 miles around and is buried...


Latest Quark matter Reference Libraries

6_f22173fe0f79e2d306163d61f6859f022
2004-10-19 04:45:42

Strange Matter -- Strange matter (also known as quark matter) is an ultra-dense phase of matter that is theorized to form inside particularly massive neutron stars (which are then known as "strange stars" or "quark stars"). It's theorized that when neutronium is put under sufficient pressure due to the gravitation of a large neutron star, the individual neutrons break down and their constituent quarks form strange matter. Strange matter is composed of strange quarks bound to each...

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Word of the Day
abrosia
  • Wasting away as a result of abstinence from food.
The word 'abrosia' comes from a Greek roots meaning 'not' and 'eating'.