FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2090545713> ?p ?o ?g. }

• W2090545713 endingPage "583" @default.
• W2090545713 startingPage "525" @default.
• W2090545713 abstract "Quantum chromodynamics is studied at finite temperatures and densities using the temperature Green functions method. For the Green functions the renormalized Schwinger-Dyson equations are obtained and their qualitative properties are discussed. The equality of the renormalization constants for the equations obtained at T, μ ≠ 0 with those for quantum field theory is pointed out. General properties of the gluon polarization tensor are investigated at T, μ ≠ 0. The temperature Green functions are calculated within the one-loop approximation using both relativistic and axial gauges. The fulfilment of the Slavnov-Taylor identities is verified. The asymptotic behaviour of the polarization tensor at T, μ ≠ 0 is established and the excitation spectrum of quark-gluon plasma is found. Both Fermi and Bose excitations are considered and the gauge invariance of the spectra is demonstrated. The renormalization group extension of the dispersion laws into the regions of high temperatures and densities is presented. The exact representation of the thermodynamical potential in QCD is found in terms of the temperature Green functions. For the quark-gluon plasma the thermodynamical potential is calculated with the g3-term taken into account. The equation of state of the hot quark-gluon plasma is found and its properties are discussed. The complete evolutional diagram of the hadronic matter is outlined. The phase curve asymptotics, which put bounds on the quark-gluon plasma domain, are found for the two limiting cases (μ = 0, T T0; T = 0, μ μ0). The phase transition of the hot quark-gluon plasma placed in external Abelian field is studied. The instability of such plasma has been found and the program of its stabilization is indicated. The infrared behaviour of the non-Abelian gauge theory is studied for finite temperatures when power divergencies are essential. The propagator of transverse gluons is shown to be singular for momenta |p| ˜ g2T and this cannot be avoided by summing the simplest bubble chains. The infrared asymptotic behaviour of the tree-gluon vertex is found and the results obtained are checked using the Slavnov-Taylor identities. The Green functions asymptotics found indicate either an instability of the quark-gluon plasma in the infrared momentum domain or the inconsistency of the perturbational methods. A non-perturbative approach to the infrared problem in QCD is developed within the axial gauge. The closed equations for the structure functions that determine the gluon polarization tensor are obtained by using the Slavnov-Taylor identities to found approximately the three-gluon vertex. It is shown that the solution of the equations obtained by iterations does not remove the infrared singularity from the temperature Green functions. The nonperturbative solution of such equations is discussed." @default.
• W2090545713 created "2016-06-24" @default.
• W2090545713 creator A5041651430 @default.
• W2090545713 date "1984-01-01" @default.
• W2090545713 modified "2023-09-27" @default.
• W2090545713 title "QCD at finite temperature" @default.
• W2090545713 cites W1497285868 @default.
• W2090545713 cites W1536649988 @default.
• W2090545713 cites W1965553375 @default.
• W2090545713 cites W1965580608 @default.
• W2090545713 cites W1969230123 @default.
• W2090545713 cites W1970522155 @default.
• W2090545713 cites W1972004193 @default.
• W2090545713 cites W1974512611 @default.
• W2090545713 cites W1974765076 @default.
• W2090545713 cites W1976620194 @default.
• W2090545713 cites W1977405891 @default.
• W2090545713 cites W1977772334 @default.
• W2090545713 cites W1985593417 @default.
• W2090545713 cites W1986107325 @default.
• W2090545713 cites W1988538428 @default.
• W2090545713 cites W1995161458 @default.
• W2090545713 cites W1995607834 @default.
• W2090545713 cites W1996348033 @default.
• W2090545713 cites W1998702804 @default.
• W2090545713 cites W2012465771 @default.
• W2090545713 cites W2015650376 @default.
• W2090545713 cites W2015962378 @default.
• W2090545713 cites W2023510350 @default.
• W2090545713 cites W2023685763 @default.
• W2090545713 cites W2025368756 @default.
• W2090545713 cites W2029771054 @default.
• W2090545713 cites W2033047029 @default.
• W2090545713 cites W2035033978 @default.
• W2090545713 cites W2035707956 @default.
• W2090545713 cites W2041335465 @default.
• W2090545713 cites W2041952661 @default.
• W2090545713 cites W2044136161 @default.
• W2090545713 cites W2045472496 @default.
• W2090545713 cites W2047940679 @default.
• W2090545713 cites W2049335485 @default.
• W2090545713 cites W2050680494 @default.
• W2090545713 cites W2052768144 @default.
• W2090545713 cites W2053331703 @default.
• W2090545713 cites W2055032269 @default.
• W2090545713 cites W2060508649 @default.
• W2090545713 cites W2061630644 @default.
• W2090545713 cites W2068704126 @default.
• W2090545713 cites W2071939979 @default.
• W2090545713 cites W2075027013 @default.
• W2090545713 cites W2076101481 @default.
• W2090545713 cites W2080771061 @default.
• W2090545713 cites W2082014785 @default.
• W2090545713 cites W2083207710 @default.
• W2090545713 cites W2083467958 @default.
• W2090545713 cites W2086599660 @default.
• W2090545713 cites W2086690326 @default.
• W2090545713 cites W2087984305 @default.
• W2090545713 cites W2090849861 @default.
• W2090545713 cites W2091368485 @default.
• W2090545713 cites W2091562324 @default.
• W2090545713 cites W2091860414 @default.
• W2090545713 cites W2093304383 @default.
• W2090545713 cites W2094063946 @default.
• W2090545713 cites W2094438378 @default.
• W2090545713 cites W2172257446 @default.
• W2090545713 cites W4233542505 @default.
• W2090545713 cites W4234500697 @default.
• W2090545713 doi "https://doi.org/10.1002/prop.19840321002" @default.
• W2090545713 hasPublicationYear "1984" @default.
• W2090545713 type Work @default.
• W2090545713 sameAs 2090545713 @default.
• W2090545713 citedByCount "109" @default.
• W2090545713 countsByYear W20905457132012 @default.
• W2090545713 countsByYear W20905457132014 @default.
• W2090545713 countsByYear W20905457132015 @default.
• W2090545713 countsByYear W20905457132016 @default.
• W2090545713 countsByYear W20905457132017 @default.
• W2090545713 countsByYear W20905457132018 @default.
• W2090545713 countsByYear W20905457132019 @default.
• W2090545713 crossrefType "journal-article" @default.
• W2090545713 hasAuthorship W2090545713A5041651430 @default.
• W2090545713 hasConcept C117137515 @default.
• W2090545713 hasConcept C121332964 @default.
• W2090545713 hasConcept C123579102 @default.
• W2090545713 hasConcept C166124518 @default.
• W2090545713 hasConcept C181830111 @default.
• W2090545713 hasConcept C2292967 @default.
• W2090545713 hasConcept C3079626 @default.
• W2090545713 hasConcept C37914503 @default.
• W2090545713 hasConcept C62520636 @default.
• W2090545713 hasConcept C7602139 @default.
• W2090545713 hasConceptScore W2090545713C117137515 @default.
• W2090545713 hasConceptScore W2090545713C121332964 @default.
• W2090545713 hasConceptScore W2090545713C123579102 @default.
• W2090545713 hasConceptScore W2090545713C166124518 @default.
• W2090545713 hasConceptScore W2090545713C181830111 @default.
• W2090545713 hasConceptScore W2090545713C2292967 @default.

• next