Yong Zhang scite author profile

In the hot and dense hadronic sources formed in high-energy heavy-ion collisions, the particle interactions in medium might lead to a squeezed back-to-back correlation (BBC) of boson-antiboson pairs. We calculate the BBC functions of φφ for sources evolving hydrodynamically in (2 + 1) dimensions and with longitudinal boost invariance. The BBC functions for hydrodynamic sources exhibit oscillations as a function of the particle momentum because the temporal distributions of hydrodynamic sources have sharp falls to 0 at large evolving times. The dependences of the BBC functions on the directions of the particle momentum are investigated. For transverse anisotropic sources, the BBC functions are minimum when the azimuthal angles of the particles reach 0. The BBC functions increase with decreasing absolute value of the particle pseudorapidity. The oscillations and the dependences on the particle azimuthal angle and pseudorapidity are the significant signatures for detecting the BBC in high-energy heavy-ion collisions.

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Between‐ and within‐population variations in thermal reaction norms of the coccolithophore Emiliania huxleyi

Zhang

Klapper

Lohbeck

et al. 2014

Limnology & Oceanography

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Thermal reaction norms for growth rates of six Emiliania huxleyi isolates originating from the central Atlantic (Azores, Portugal) and five isolates from the coastal North Atlantic (Bergen, Norway) were assessed. We used the template mode of variation model to decompose variations in growth rates into modes of biological interest: vertical shift, horizontal shift, and generalist-specialist variation. In line with the actual habitat conditions, isolates from Bergen (Bergen population) grew well at lower temperatures, and isolates from the Azores (Azores population) performed better at higher temperatures. The optimum growth temperature of the Azores population was significantly higher than that of the Bergen population. Neutral genetic differentiation was found between populations by microsatellite analysis. These findings indicate that E. huxleyi populations are adapted to local temperature regimes. Next to between-population variation, we also found variation within populations. Genotype-by-environment interactions resulted in the most pronounced phenotypic differences when isolates were exposed to temperatures outside the range they naturally encounter. Variation in thermal reaction norms between and within populations emphasizes the importance of using more than one isolate when studying the consequences of global change on marine phytoplankton. Phenotypic plasticity and standing genetic variation will be important in determining the potential of natural E. huxleyi populations to cope with global climate change.

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Two-dimensional numerical modeling of storm deposition on the northern California shelf

et al. 1999

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Ship arrival prediction and its value on daily container terminal operation

Tang

Song

et al. 2018

Ocean Engineering

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Yong Zhang

Squeezed correlations ofϕmeson pairs for hydrodynamic sources in high-energy heavy-ion collisions

Between‐ and within‐population variations in thermal reaction norms of the coccolithophore Emiliania huxleyi

Two-dimensional numerical modeling of storm deposition on the northern California shelf

Ship arrival prediction and its value on daily container terminal operation

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