2,266 research outputs found
Quantum corrections to the Classical Statistical Approximation for the expanding quantum field
We found the deviation of the equation of state from ultrarelativistic one
due to quantum corrections for a nonequilibrium longitudinally expanding scalar
field. Relaxation of highly excited quantum field is usually described in terms
of Classical Statistical Approximation (CSA). However, the expansion of the
system reduces the applicability of such a semiclassical approach as the CSA
making quantum corrections important. We calculate the evolution of the trace
of the energy-momentum tensor within the Keldysh-Schwinger framework for static
and longitudinal expanding geometries. We provide analytical and numerical
arguments for the appearance of the nontrivial intermediate regime where
quantum corrections are significant
QCD partition function in the external field in the covariant gauge
The QCD partition function in the external stationary gluomagnetic field is
computed in the third order in external field invariants in arbitrary dimension
and arbitrary covariant gauge. The contributions proportional to third order
invariants in gluon field strength are shown to be dependent on covariant
quantum gauge fixing parameter \alph
Default contagion risks in Russian interbank market
Systemic risks of default contagion in the Russian interbank market are
investigated. The analysis is based on considering the bow-tie structure of the
weighted oriented graph describing the structure of the interbank loans. A
probabilistic model of interbank contagion explicitly taking into account the
empirical bow-tie structure reflecting functionality of the corresponding nodes
(borrowers, lenders, borrowers and lenders simultaneously), degree
distributions and disassortativity of the interbank network under consideration
based on empirical data is developed. The characteristics of contagion-related
systemic risk calculated with this model are shown to be in agreement with
those of explicit stress tests.Comment: Final version, to appear in Physica
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