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W2025403131 abstract "Applying a microscopically motivated semi-classical Langevin description of the linear sigma model we investigate for various different scenarios the stochastic evolution of a disoriented chiral condensate (DCC) in a rapidly expanding system. Some particular emphasize is put on the numerical realisation of colored noise in order to treat the underlying dissipative and nonmarkovian stochastic equations of motion. A comparison with an approximate markovian (i.e. instantaneous) treatment of dissipation and noise will be made in order to identify the possible influence of memory effects in the evolution of the chiral order parameter. Assuming a standard Rayleigh cooling term to simulate a D-dimensional scaling expansion we present the probability distribution in the low momentum pion number stemming from the relaxing zero mode component of the chiral field. The best DCC signal is expected for initial conditions centered around $<sigma > approx 0 $ as would be the case of effective light `pions' close to the phase transition. By choosing appropriate idealized global parameters for the expansion our findings show that an experimentally feasible DCC, if it does exist in nature, has to be a rare event with some finite probability following a nontrivial and nonpoissonian distribution on an event by event basis. DCCs might then be identified experimentally by inspecting higher order factorial cumulants $theta_m$ ($mge 3$) in the sampled distribution." @default.
W2025403131 created "2016-06-24" @default.
W2025403131 creator A5008152614 @default.
W2025403131 creator A5084093527 @default.
W2025403131 date "2000-07-12" @default.
W2025403131 modified "2023-10-16" @default.
W2025403131 title "Stochastic treatment of disoriented chiral condensates within a Langevin description" @default.
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W2025403131 cites W1964766523 @default.
W2025403131 cites W1969099201 @default.
W2025403131 cites W1969480925 @default.
W2025403131 cites W1970501201 @default.
W2025403131 cites W1973849800 @default.
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W2025403131 cites W2003879341 @default.
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W2025403131 cites W2006616167 @default.
W2025403131 cites W2008453420 @default.
W2025403131 cites W2010662581 @default.
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W2025403131 cites W2023615361 @default.
W2025403131 cites W2036988082 @default.
W2025403131 cites W2041281433 @default.
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W2025403131 cites W2046046927 @default.
W2025403131 cites W2047383755 @default.
W2025403131 cites W2051478989 @default.
W2025403131 cites W2056298024 @default.
W2025403131 cites W2060214521 @default.
W2025403131 cites W2066359652 @default.
W2025403131 cites W2066704349 @default.
W2025403131 cites W2074024395 @default.
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W2025403131 cites W2084482318 @default.
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W2025403131 cites W2093324189 @default.
W2025403131 cites W2100584510 @default.
W2025403131 cites W2101449797 @default.
W2025403131 cites W2107120226 @default.
W2025403131 cites W2110023503 @default.
W2025403131 cites W2118742522 @default.
W2025403131 cites W2124445512 @default.
W2025403131 cites W2138765591 @default.
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W2025403131 cites W2213884069 @default.
W2025403131 cites W2593681812 @default.
W2025403131 cites W2950808376 @default.
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W2025403131 cites W3102455797 @default.
W2025403131 cites W3106032015 @default.
W2025403131 cites W4301008129 @default.
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W2025403131 doi "https://doi.org/10.1103/physrevd.62.036012" @default.
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