Space-average electromagnetic fields and electromagnetic anomaly weighted by energy density in heavy-ion collisions

We study the space-averaged electromagnetic (EM) fields weighted by the energy density in the central regions of heavy-ion collisions. These average quantities can serve as a barometer for the magnetic-field induced effects such as the magnetic effect, the chiral separation effect and the chiral magnetic wave. Comparing with the magnetic fields at the geometric center of the collision, the space-averaged fields weighted by the energy density are smaller in the early stage but damp slower in the later stage. The space average of squared fields as well as the EM anomaly $\mathbf{E}\ifmmode\cdot\else\textperiodcentered\fi{}\mathbf{B}$ weighted by the energy density are also calculated. We give parametrized analytical formulas for these average quantities as functions of time by fitting numerical results for collisions in the collision energy range $7.7--200$ GeV with different impact parameters.