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Beam energy dependence of rapidity-even dipolar flow in Au+Au collisions
Physics And Astronomy
Center for Computational Sciences
Research output
:
Contribution to journal
›
Article
›
peer-review
10
Scopus citations
Overview
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Dive into the research topics of 'Beam energy dependence of rapidity-even dipolar flow in Au+Au collisions'. Together they form a unique fingerprint.
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Engineering
Beam Energy
100%
Measurement
100%
Fluctuations
50%
Characteristics
50%
Energy Engineering
50%
State Model
50%
Similarities
50%
Hydrodynamics
50%
Shear Viscosity
50%
Fourier Coefficient
50%
Initial Stage
50%
Momentum Conservation
50%
Flow Measurement
50%
Extraction
50%
Temperature Dependence
50%
Initial State
50%
Experiment
50%
Earth and Planetary Sciences
Collision
100%
Dependence
100%
Momentum
50%
Model
25%
State
25%
Experiment
25%
Interval
25%
Coefficient
25%
Analogy
25%
Flow Measurement
25%
Center of Mass
25%
Fluctuations
25%
Expectation
25%
Precision
25%
Extraction
25%
Hydrodynamics
25%
Conservation
25%
Chemistry
Energy
100%
Collision
100%
Momentum
66%
Shear
33%
Flow Measurement
33%
Viscosity
33%
Reaction Temperature
33%
Fluctuations
33%
Hadron
33%
Hydrodynamics
33%
Physics
Collision
100%
Hydrodynamics
33%
Viscosity
33%
Model
33%
Momentum
33%
Transverse Momentum
33%
Hadron
33%
Coefficient
33%
Temperature Dependence
33%
Interval
33%
Center of Mass
33%
Flow Measurement
33%
Shears
33%
Material Science
Temperature
100%
Hydrodynamics
100%
Viscosity
100%
Flow Measurement
100%