1,337 research outputs found
Multiparticle production at RHIC and LHC: a classical point of view
We report results of our ongoing nonperturbative numerical study of a
classical effective theory describing low-x partons in the central region of a
heavy-ion collision. In particular, we give estimates of the initial transverse
energies and multiplicities for a wide range of collision regimes, including
those at RHIC and at LHC.Comment: Talk given at International Symposium for Multiparticle Dynamics,
Tihany, Hungary, October 2000. LaTeX using sprocl.sty, 6 pages, figures part
of the LaTeX fil
Decoherence and the Quantum Zeno Effect
The experiment of Etano et al which demonstrated the quantum Zeno effect
(QZE) in an optical experiment was explained by Frerichs and Schenzle without
invoking the wave function collapse. In this report it is proposed that the
collapse does occur, and it can be explained by the `environment induced
decoherence' theory. The environment here consists of the completely quantized
field vacuum modes. The spontaneous emission life time of the atom sets a
fundamental limit on the requirement of `continuous measurements' for QZE. This
limit turns out to be related to the time-energy uncertainty relation discussed
by Ghirardi et al.Comment: Based on a poster presented at the "Workshop on Advanced Laser
Spectroscopy", I.I.T. Kanpur, India, 25-28 February 1995. RevTeX, one page,
two uunecoded post-script figures appended
Analysis of glow discharges for understanding the process of film formation
The physical and chemical processes which occur during the formation of different types of films in a variety of glow discharge plasmas are discussed. Emphasis is placed on plasma diagnostic experiments using spectroscopic methods, probe analysis, mass spectrometric sampling and magnetic resonance techniques which are well suited to investigate the neutral and ionized gas phase species as well as some aspects of plasma surface interactions. The results on metallic, semi-conducting and insulating films are reviewed in conjunction with proposed models and the problem encountered under film deposition conditions. It is concluded that the understanding of film deposition process requires additional experimental information on plasma surface interactions of free radicals and the synergetic effects where photon, electron and ion bombardment change the reactivity of the incident radical with the surface
Multiparticle production in the Glasma at NLO and plasma instabilities
We discuss the relation between multi-particle production in the Glasma at
next-to-leading order and the physics of plasma instabilities.Comment: 4 pages, talk at Quark Matter 200
Universality of the saturation scale and the initial eccentricity in heavy ion collisions
Recent estimates that Color Glass Condensate initial conditions may generate
a larger initial eccentricity for noncentral relativistic heavy ion collisions
(relative to the initial eccentricity assumed in earlier hydrodynamic
calculations) have raised the possibility of a higher bound on the viscosity of
the Quark Gluon Plasma. We show that this large initial eccentricity results in
part from a definition of the saturation scale as proportional to the number of
nucleons participating in the collision. A saturation scale proportional to the
nuclear thickness function (and therefore independent of the probe) leads to a
smaller eccentricity, albeit still larger than the value used in hydrodynamic
models. Our results suggest that the early elliptic flow in heavy ion
collisions (unlike multiplicity distributions) is sensitive to the universality
of the saturation scale in high energy QCD.Comment: 5 pages, 3 figures, RevTE
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