The dynamic central environment of NGC 3516 revealed by XRISM

Abstract

We present a detailed, time-resolved analysis of the Fe K band of the Seyfert 1.5 galaxy NGC 3516 observed with XRISM. The 249 ks observation spanning 310 ks in elapsed time reveals an exceptionally rich and time-variable absorption spectrum. Six distinct absorption components are detected across multiple ionization states, spanning more than an order of magnitude in ionization parameter and a wide range of systemic velocities, from a potential inflow (+4300~ km~s-1) to a mildly relativistic ultra-fast outflow (-9800~ km~s-1). Despite their diversity, the components exhibit relatively small broadening (400~ km~s-1), implying comparable internal dynamics within a medium of a complex structure. Time-resolved spectroscopy reveals pronounced variability in three highly ionized absorbers, with Fe XXV-Fe XXVI features that appear and disappear on timescales of tens of kiloseconds. This behavior likely reflects a combination of geometrical transits of clumpy gas and ionization-state changes driven by continuum variability. An additional temporary absorption feature in the red wing of the Fe Kα line, consistent with Fe XXV absorption, indicates a possible transient ultra-fast inflow at 15\,000~ km~s-1 (5% c). Finally, the continuum light curve exhibits a tentative 40 ks oscillatory pattern, accompanied by correlated shifts of a weak, narrow Fe Kα emission feature, suggesting dynamic coupling between the continuum and the line-emitting region. Together, these results reveal that the nuclear environment of NGC 3516 is dominated by rapidly evolving, multi-phase gas flows, where accretion, ejection, and ionization processes are tightly coupled on sub-parsec scales.

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