PIRSA:25070041

Mapping the z ~ 2 Circumgalactic Medium with KBSS Galaxy Pairs

Prusinski, N. (2025). Mapping the z ~ 2 Circumgalactic Medium with KBSS Galaxy Pairs. Perimeter Institute. https://pirsa.org/25070041

Prusinski, Nikolaus. Mapping the z ~ 2 Circumgalactic Medium with KBSS Galaxy Pairs. Perimeter Institute, Jul. 30, 2025, https://pirsa.org/25070041 

          @misc{ pirsa_PIRSA:25070041,
            doi = {10.48660/25070041},
            url = {https://pirsa.org/25070041},
            author = {Prusinski, Nikolaus},
            keywords = {Cosmology},
            language = {en},
            title = {Mapping the z ~ 2 Circumgalactic Medium with KBSS Galaxy Pairs},
            publisher = {Perimeter Institute},
            year = {2025},
            month = {jul},
            note = {PIRSA:25070041 see, \url{https://pirsa.org}}
          }

Nikolaus Prusinski Caltech

Talk numberPIRSA:25070041
DOI10.48660/25070041
Collection
Talk Type Conference
Subject

Abstract

Despite a growing body of observational and theoretical work, the connection between galactic-scale feedback processes, the underlying distribution of gas in the circumgalactic medium (CGM), and host galaxy properties remains uncertain. Focusing on the latter two points, we present new results on the spatial structure and kinematics of Ly$\alpha$ and several far-UV metallic ions in the CGM of Keck Baryonic Structure Survey (KBSS) galaxies using rest-frame far-UV spectra of foreground/background galaxy pairs with angular separations $\le 30$ arcsec. Medium resolution ($R\simeq 1500$) Keck/KCWI and Keck/LRIS spectra of 736 background galaxies with $\langle z_{\rm bg}\rangle=2.58 \pm 0.38$ probe sightlines through 1033 foreground galaxies ($\langle z_{\rm fg}\rangle=2.03 \pm 0.36$) at projected distances $8\leq D_{\rm tran}/\mathrm{kpc}\leq250$. For each ion, we measure rest-frame equivalent widths ($W_{\lambda}$) as a function of $D_{\rm tran}$; we observe higher ionization species (C IV) decrease less rapidly and extend to larger $D_{\rm tran}$ compared to low ions (O I, C II, Si II). Splitting the pair sample into subsets based on foreground galaxy properties, we find $W_\lambda(\text{C IV})$ exhibits a strong dependence on stellar mass ($M_*$) and a weaker dependence on star formation rate. Similarly, $W_\lambda(\text{Ly}\alpha)$ increases with $M_*$, albeit with more scatter. In 2D, we map the excess Ly$\alpha$ and C IV absorption as functions of line-of-sight velocity and $D_{\rm tran}$ and fit the observed Ly$\alpha$ map with a simple two-component model. Combining the 1D and 2D trends, we discuss the improved constraints these results place on CGM gas-phase kinematics in the context of previous studies at $z\sim 2$.