Hong-Shi Zong scite author profile

We employ a continuum approach to the three valence-quark bound-state problem in relativistic quantum field theory to predict a range of properties of the proton's radial excitation and thereby unify them with those of numerous other hadrons. Our analysis indicates that the nucleon's first radial excitation is the Roper resonance. It consists of a core of three dressed-quarks, which expresses its valence-quark content and whose charge radius is 80% larger than the proton analogue. That core is complemented by a meson cloud, which reduces the observed Roper mass by roughly 20%. The meson cloud materially affects long-wavelength characteristics of the Roper electroproduction amplitudes but the quark core is revealed to probes with Q 2 3m 2 N .

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Valence-quark distribution functions in the kaon and pion

Chen¹,

Chang²,

Roberts³

et al. 2016

Phys. Rev. D

116

145

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We describe expressions for pion and kaon dressed-quark distribution functions that incorporate contributions from gluons which bind quarks into these mesons and hence overcome a flaw of the commonly used handbag approximation. The distributions therewith obtained are purely valence in character, ensuring that dressed-quarks carry all a meson's momentum at a characteristic hadronic scale and vanishing as $(1-x)^2$ when Bjorken-$x\to 1$. Comparing such distributions within the pion and kaon, it is apparent that the size of SU(3)-flavour symmetry breaking in meson parton distribution functions is modulated by the flavour dependence of dynamical chiral symmetry breaking. Corrections to these leading-order formulae may be divided into two classes, responsible for shifting dressed-quark momentum into glue and sea-quarks. Working with available empirical information, we build an algebraic framework that is capable of expressing the principal impact of both classes of corrections. This enables a realistic comparison with experiment which allows us to identify and highlight basic features of measurable pion and kaon valence-quark distributions. We find that whereas roughly two-thirds of the pion's light-front momentum is carried by valence dressed-quarks at a characteristic hadronic scale, this fraction rises to 95% in the kaon; evolving distributions with these features to a scale typical of available Drell-Yan data produces a kaon-to-pion ratio of u-quark distributions that is in agreement with the single existing data set; and predict a u-quark distribution within the pion that agrees with a modern reappraisal of $\pi N$ Drell-Yan data. Precise new data are essential in order to validate this reappraisal and because a single modest-quality measurement of the kaon-to-pion ratio cannot be considered definitive.Comment: 10 pages, 3 figures. arXiv admin note: text overlap with arXiv:1406.545

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Possible $$D^{()}\bar{D}^{()}$$ D ( ∗ ) D ¯ ( ∗ ) and $$B^{()}\bar{B}^{()}$$ B ( ∗ ) B ¯ ( ∗ ) molecular states in the extended constituent quark models

et al. 2017

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Effects of Sulfamethazine on Denitrification and the Associated N₂O Release in Estuarine and Coastal Sediments

Hou

Yin

Liu

et al. 2014

Environ. Sci. Technol.

183

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Denitrification is an important pathway of nitrogen removal and nitrous oxide (N2O) production in estuarine and coastal ecosystems, and plays a significant role in counteracting aquatic eutrophication induced by excessive nitrogen loads. Estuarine and coastal environments also suffer from increasing antibiotic contamination because of the growing production and usage of antibiotics. In this study, sediment slurry incubation experiments were conducted to determine the influence of sulfamethazine (SMT, a sulphonamide antibiotic) on denitrification and the associated N2O production. Genes important for denitrification and antibiotic resistance were quantified to investigate the microbial physiological mechanisms underlying SMT's effects on denitrification. SMT was observed to significantly inhibit denitrification rates, but increasing concentrations of SMT enhanced N2O release rates. The negative exponential relationships between denitrifying gene abundances and SMT concentrations showed that SMT reduced denitrification rates by restricting the growth of denitrifying bacteria, although the presence of the antibiotic resistance gene was detected during the incubation period. These results imply that the wide occurrence of residual antibiotics in estuarine and coastal ecosystems may influence eutrophication control, greenhouse effects, and atmospheric ozone depletion by inhibiting denitrification and stimulating the release of N2O.

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Hong-Shi Zong

Completing the Picture of the Roper Resonance

Valence-quark distribution functions in the kaon and pion

Possible $$D^{()}\bar{D}^{()}$$ D ( ∗ ) D ¯ ( ∗ ) and $$B^{()}\bar{B}^{()}$$ B ( ∗ ) B ¯ ( ∗ ) molecular states in the extended constituent quark models

Effects of Sulfamethazine on Denitrification and the Associated N₂O Release in Estuarine and Coastal Sediments

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Hong-Shi Zong

Completing the Picture of the Roper Resonance

Valence-quark distribution functions in the kaon and pion

Possible $$D^{(*)}\bar{D}^{(*)}$$ D ( ∗ ) D ¯ ( ∗ ) and $$B^{(*)}\bar{B}^{(*)}$$ B ( ∗ ) B ¯ ( ∗ ) molecular states in the extended constituent quark models

Effects of Sulfamethazine on Denitrification and the Associated N2O Release in Estuarine and Coastal Sediments

Contact Info

Product

Resources

About

Possible $$D^{()}\bar{D}^{()}$$ D ( ∗ ) D ¯ ( ∗ ) and $$B^{()}\bar{B}^{()}$$ B ( ∗ ) B ¯ ( ∗ ) molecular states in the extended constituent quark models

Effects of Sulfamethazine on Denitrification and the Associated N₂O Release in Estuarine and Coastal Sediments