EAS2024
The characterization of AGN and their host galaxies provides key constraints and valuable insights into this model. Integral field spectroscopic (IFS) observations of type I AGN are particularly well-suited for exploring the co-growth scenario. Data cubes from IFS enable the estimation of both the properties of the host galaxy and the mass of the central SMBH through the application of the single-epoch virial method.
However, hosts are generally strongly outshined by their central bright AGN, and studying their properties/parameters (e.g. luminosity, stellar velocity dispersion) requires an accurate removal of the AGN emission. In this context, a comprehensive understanding of the point-spread function (PSF) across the entire spectral range (3D-PSF) of the IFS data becomes crucial for AGN-host spectra deblending.
The broad component of the type I AGN emission lines serves as a basis for generating a PSF image, supporting the PSF characterization at a reference narrow-band filter. To recover the 3D-PSF, the parametrized PSF is extended to distinct wavelengths taking advantage of the well-characterized behaviour of the atmospheric turbulence with wavelength. Each slice is then scaled to the AGN flux at each wavelength, a flux determined by fitting the spectrum obtained from a 2 arcsec radius circular aperture from the IFS data cube. This procedure provides the pure-AGN data cube as observed by the instrument in the absence of any host contribution, allowing the easy removal of the AGN contribution from the host-galaxy spectra.
In this presentation, we explain our innovative deblending method and showcase its efficacy through the application on MUSE observations of three type I AGN—specifically, NGC7469, MRK1044, and MRK926.