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ALICE (A Large Ion Collider Experiment) is a dedicated heavy ion
experiment at the LHC. The goal of the experiment is to study strongly
interacting matter at extreme energy densities (QCD thermodynamics). Statistical
QCD predicts that, at sufficiently high densities, there will be a transition
from hadronic matter to a plasma of deconfined quarks and gluons -
a transition which in the early universe took place about 100 micro-seconds after the Big Bang.
The study of nuclear collisions at high energies utilizes methods and concepts from both nuclear
and high energy physics constituting a new and interdisciplinary approach in investigating
matter and its interactions.
The ALICE collaboration proposes to build a dedicated, general-purpose detector that will
utilize the full potential of the LHC programme including both nucleus-nucleus and proton-proton collisions.
Its design is based on the experiencies gained
with the existing programs at CERN and BNL and it will address a majority of
known sensitive observables like hadrons, di-leptons and photons.
The ALICE detector will be the only heavy ion experiment at LHC and its design
therefore has to be conservative and robust to be able to observe most of the signals that
look promosing today for the QGP formation.
The figure above shows the ALICE experiment. The detector is contained in a big
magnet of about 6 meters radius. The detector must have the capability
of detecting the produced particles with very high precision. This
requires different systems of specially designed detectors based on very
You can read more on the ALICE home page at CERN.