Production of strange particles at intermediate pT at RHIC
Abstract
The recombination model is applied to the production of K, φ, and at all pT in central Au+Au collisions. The thermal-shower component of the recombination is found to be important for K and , but only in a minor way for φ and in the intermediate to high pT region. The normalization and inverse slope of the thermal partons in the strange sector are determined by fitting the low-pT data. At higher pT the data of K, φ, and in the log scale are all well reproduced in our study that extends the thermal contribution and includes the shower contribution. The calculated result on the /K ratio rises to a maximum of around 2 at pT≈ 4 GeV/c, arching over the data in linear scale. The production of φ and are shown to arise mainly from the recombination of thermal partons, thus exhibiting exponential pT dependences in agreement with the data. Their ratio, R/φ, rises linearly to pT≈ 4 GeV/c and develops a maximum at pT≈ 5.5 GeV/c. It is argued that the pT spectra of φ and reveal directly the partonic nature of the thermal source that characterizes quark-gluon plasma. Comments are made on the puzzle due to the simultaneous observation of both the exponential behavior of the spectrum in pT and the existence of low-pT particles associated with as trigger.
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