Evidence to disfavour dual-core systems leading to double-peaked narrow emission lines

Abstract

ABSTRACTIn this paper, an interesting method is proposed to test dual-core systems for double-peaked narrow emission lines through a precious dual-core system with double-peaked narrow Balmer lines in the main galaxy but with single-peaked narrow Balmer lines in the companion galaxy. Under a dual-core system, considering narrow Balmer (Hα and Hβ) emissions (fe,α and fe,β) from a companion galaxy that are covered by the SDSS fiber for the main galaxy and narrow Balmer emissions (fc,α and fc,β) from the companion galaxy covered by the SDSS fiber for the companion galaxy, the same flux ratios fe,α/fc,α = fe,β/fc,β can be expected, owing to the totally similar physical conditions of each narrow Balmer emission region. Next, the precious dual-core system in SDSS J2219–0938 is discussed. After subtracting the pPXF code determined stellar lights, double-peaked narrow Balmer emission lines are confirmed in the main galaxy with a confidence level higher than 5σ, but single-peaked narrow Balmer emission lines are confirmed in the companion galaxy. Through measured fluxes of the emission components, fe,α/fc,α is about 0.82, which is different from fe,β/fc,β ∼ 0.52, which disfavours a dual-core system for the double-peaked narrow Balmer emission lines in SDSS J2219–0938.