Using a previously derived QCD effective hamiltonian we find the masses of heavy quarkonia states. Nonperturbative effects are included through temperature dependent gluonic condensates. We find that even a moderate change in these condensates in a hot hadronic environment (below the deconfining transition) is sufficient to significantly change the heavy meson masses
Heavy quarkonium continues to play a central role in the study of nuclear matter under extremes of t...
Since the discovery of the J/ψ, the quark model was very successful in describing the spectrum and p...
We analyse the possible existence of non-perturbative contributions in heavy \bar Q Q systems (\bar ...
The early idea that a non-perturbative gluon condensate affects the spectrum of heavy quarks is revi...
Encouraged by recent developments in AdS/QCD models for light quark system, we study heavy quarkoniu...
We calculate the heavy quarkonium energy levels and decay widths in a quark-gluon plasma, whose temp...
We examine three different ways a heavy quarkonium can dissociate at high temperatures. The heavy qu...
We investigate the effect of a non-perturbative gluon condensate on the spectrum of bound states of ...
The gluon condensate is very sensitive to the QCD deconfinement transition since its value changes d...
We investigate a connection between a renormalon ambiguity of heavy quark mass and the gluon condens...
AbstractWe explore the temperature dependence of the heavy-quarkonium interaction based on the Bhano...
The Equation of State and the properties of matter in the high temperature deconfined phase are anal...
We briefly review several models of heavy quarkonium production in hadronic collisions, and discuss ...
By means of effective field theory techniques, we study the modifications of some properties of weak...
We calculate electric and magnetic masses of gluons between T = T_c and 6T_c using lattice QCD (quan...
Heavy quarkonium continues to play a central role in the study of nuclear matter under extremes of t...
Since the discovery of the J/ψ, the quark model was very successful in describing the spectrum and p...
We analyse the possible existence of non-perturbative contributions in heavy \bar Q Q systems (\bar ...
The early idea that a non-perturbative gluon condensate affects the spectrum of heavy quarks is revi...
Encouraged by recent developments in AdS/QCD models for light quark system, we study heavy quarkoniu...
We calculate the heavy quarkonium energy levels and decay widths in a quark-gluon plasma, whose temp...
We examine three different ways a heavy quarkonium can dissociate at high temperatures. The heavy qu...
We investigate the effect of a non-perturbative gluon condensate on the spectrum of bound states of ...
The gluon condensate is very sensitive to the QCD deconfinement transition since its value changes d...
We investigate a connection between a renormalon ambiguity of heavy quark mass and the gluon condens...
AbstractWe explore the temperature dependence of the heavy-quarkonium interaction based on the Bhano...
The Equation of State and the properties of matter in the high temperature deconfined phase are anal...
We briefly review several models of heavy quarkonium production in hadronic collisions, and discuss ...
By means of effective field theory techniques, we study the modifications of some properties of weak...
We calculate electric and magnetic masses of gluons between T = T_c and 6T_c using lattice QCD (quan...
Heavy quarkonium continues to play a central role in the study of nuclear matter under extremes of t...
Since the discovery of the J/ψ, the quark model was very successful in describing the spectrum and p...
We analyse the possible existence of non-perturbative contributions in heavy \bar Q Q systems (\bar ...
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