Renormalization Group in Non-Relativistic Quantum Statistics
Honkonen, Juha; Komarova, M. V.; Molotkov, Yu. G.; Nalimov, M. Yu.; Zhavoronkov, Yu. A. (2020)
Honkonen, Juha
Komarova, M. V.
Molotkov, Yu. G.
Nalimov, M. Yu.
Zhavoronkov, Yu. A.
2020
Tiivistelmä
Dynamic behaviour of a boson gas near the condensation transition in the
symmetric phase is analyzed with the use of an effective large-scale model derived from
time-dependent Green functions at finite temperature. A renormalization-group analysis
shows that the scaling exponents of critical dynamics of the effective multi-charge model
coincide with those of the standard model A. The departure of this result from the descrip tion of the superfluid transition by either model E or F of the standard phenomenological
stochastic models is corroborated by the analysis of a generalization of model F, which
takes into account the effect of compressible fluid velocity. It is also shown that, con trary to the single-charge model A, there are several correction exponents in the effective
model, which are calculated at the leading order of the = 4 − d expansion.
symmetric phase is analyzed with the use of an effective large-scale model derived from
time-dependent Green functions at finite temperature. A renormalization-group analysis
shows that the scaling exponents of critical dynamics of the effective multi-charge model
coincide with those of the standard model A. The departure of this result from the descrip tion of the superfluid transition by either model E or F of the standard phenomenological
stochastic models is corroborated by the analysis of a generalization of model F, which
takes into account the effect of compressible fluid velocity. It is also shown that, con trary to the single-charge model A, there are several correction exponents in the effective
model, which are calculated at the leading order of the = 4 − d expansion.
Kokoelmat
- Artikkelit [117]