174 research outputs found
Gamma-Jet Tomography of Quark-Gluon Plasma in High-Energy Nuclear Collisions
Within the next-to-leading order (NLO) perturbative QCD (pQCD) parton model,
suppression of away-side hadron spectra associated with a high photon
due to parton energy loss is shown to provide a complete tomographic picture of
the dense matter formed in high-energy heavy-ion collisions at RHIC. Dictated
by the shape of the -triggered jet spectrum in NLO pQCD, hadron spectra
at large are more susceptible
to parton energy loss and therefore are dominated by surface emission of
-triggered jets, whereas small hadrons mainly come from
fragmentation of jets with reduced energy from volume emission. These lead to
different centrality dependence of the hadron suppression in different regions
of .Comment: 4 pages, 3 figures, proceedings for QM 2009 conferenc
A systematic account of the genus Plagiostoma (Gnomoniaceae, Diaporthales) based on morphology, host-associations, and a four-gene phylogeny
Members of the genus Plagiostoma inhabit leaves, stems, twigs, and
branches of woody and herbaceous plants predominantly in the temperate
Northern Hemisphere. An account of all known species of Plagiostoma
including Cryptodiaporthe is presented based on analyses of
morphological, cultural, and DNA sequence data. Multigene phylogenetic
analyses of DNA sequences from four genes (β-tubulin, ITS,
rpb2, and tef1-α) revealed eight previously
undescribed phylogenetic species and an association between a clade composed
of 11 species of Plagiostoma and the host family Salicaceae.
In this paper these eight new species of Plagiostoma are described,
four species are redescribed, and four new combinations are proposed. A key to
the 25 accepted species of Plagiostoma based on host, shape, and size
of perithecia, perithecial arrangement in the host, and microscopic
characteristics of the asci and ascospores is provided. Disposition of
additional names in Cryptodiaporthe and Plagiostoma is also
discussed
The present and future of QCD
This White Paper presents an overview of the current status and future perspective of QCD research, based on the community inputs and scientific conclusions from the 2022 Hot and Cold QCD Town Meeting. We present the progress made in the last decade toward a deep understanding of both the fundamental structure of the sub-atomic matter of nucleon and nucleus in cold QCD, and the hot QCD matter in heavy ion collisions. We identify key questions of QCD research and plausible paths to obtaining answers to those questions in the near future, hence defining priorities of our research over the coming decades
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