Results 191 to 200 of about 56,035 (222)

Ultra-relativistic heavy-ion physics at the LHC

AIP Conference Proceedings, 2013
The research program of the Large Hadron Collider at CERN includes the study of heavy ion collisions. A dedicated experiment (ALICE) has been built in order to focus on a detailed investigation of matter under extreme conditions, however, all major experiments (ATLAS, CMS and LHCb) register and analyze the data taken during Pb-Pb interaction runs. Here
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Relativistic Heavy Ion Collisions and Future Physics

1984
At present, most physicists feel that we have finally arrived at a closed system of physical laws, with QCD for the strong interaction and a unifying gauge theory for the weak and electromagnetic forces, plus of course Einstein’s theory of general relativity. However, there are a few things that are not completely satisfactory.
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Some Physical Analyses in Relativistic Heavy Ion Collisions

1994
Some physical analyses in relativistic heavy ion collisions are summarized. Special attention is paid to the energy density analysis and some phenomena which may be related to QGP formation, such as Bose-Einstein correlation. J/ψ suppression and strangeness enhancement.
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Physics and biomedical challenges of cancer therapy with accelerated heavy ions

Nature Reviews Physics, 2021
Marco Durante, Jürgen Debus
exaly  

Anisotropic Heavy-Metal-Free Semiconductor Nanocrystals: Synthesis, Properties, and Applications

Chemical Reviews, 2023
Xuyong Yang, Zuliang Du, Guohua Jia
exaly  

Utra-Relativistic Heavy Ion Physics from AGS to LHC

1997
Within the short time span of less than 20 years, the physics of ultra-relativistic heavy-ion collisions will have evolved from light ion reactions at a laboratory energy of a few GeV/nucleon, first explored at the Brookhaven AGS starting in 1986, to using heavy projectiles at a center-of-mass energy of several TeV/nucleon at the CERN LHC starting ...
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Preparation of an avocado seed hydrochar and its application as heavy metal adsorbent: Properties and advanced statistical physics modeling

Chemical Engineering Journal, 2021
Fatma Dhaouadi, Adrián Bonilla-Petriciolet, Herson Antonio González-Ponce   +2 more
exaly  

γγ physics at relativistic heavy-ion colliders

Physical Review C, 1994
N. Baron, G. Baur
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Artificial heavy fermions in a van der Waals heterostructure

Nature, 2021
Viliam Vaňo, Somesh Chandra Ganguli, Guangze Chen   +2 more
exaly  

Introduction to the Physics of Ultra-Relativistic Heavy-Ion Collisions

2016
The strong interaction between the elementary constituents of matter (quarks and gluons) is described by the theory of Quantum Chromodynamics (QCD). The basic ingredients of this quantum field theory will be explained in Sect. 1.1 and its peculiar properties driven by the running of the strong coupling constant will be addressed in Sect. 1.2.
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