Unveiling the Aromatic and Aliphatic Universe at Redshifts $z\sim$0.2--0.5 with JWST NIRCam/WFSS

Abstract: Utilizing deep NIRCam/WFSS data from JWST's FRESCO program, we spectroscopically survey the 3.3 $\mu m$ aromatic and 3.4 $\mu m$ aliphatic C--H stretching emission bands of polycyclic aromatic hydrocarbon (PAH) molecules in galaxies at redshifts $z$$\sim$0.2--0.5. Unlike pre-JWST studies, largely limited to infrared (IR)-bright galaxies ($L_{\rm IR}\gtrsim10^{11}~L_\odot$) at $z\lesssim0.1$, we probe 200 galaxies down to $L_{\rm IR}$$\sim$$10^{8.5}$--$10^{10}~L_\odot$ well beyond the local Universe. The 3.3 $\mu m$ emission is detected at $\geq$3-$\sigma$ in 88 out of 187 galaxies, correlating tightly with galaxy IR luminosity and star formation rate (SFR) and confirming the 3.3 $\mu m$ PAH as a viable SFR tracer. Despite a large scatter, the 3.3 $\mu m$-to-IR luminosity ratio ($L_{3.3}/L_{\rm IR}$) exhibits a strong metallicity dependence with a drop of $L_{3.3}/L_{\rm IR}$ by a factor of $\gtrsim10$ at 12+log(O/H)$\sim$8.4--8.5 towards lower metallicities. The 3.4 $\mu m$ emission is detected in 37 out of 159 galaxies, with the 3.4 $\mu m$-to-3.3 $\mu m$ luminosity ratio ($L_{3.4}/L_{3.3}$) spanning from $\sim$0.05 to $\sim$0.58 (median $\sim$0.19), corresponding to PAH aliphatic fractions of $\sim$0.78%--8.3% (median $\sim$2.9%) in terms of fractional carbon atoms in aliphatic units. While $L_{3.4}/L_{3.3}$ does not depend significantly on redshift, stellar mass, metallicity, or galaxy morphology, it does decrease with various SFR tracers, suggesting that ultraviolet photons in active star-forming regions may strip aliphatic sidegroups from PAH molecules. Our study showcases the unique power of JWST's NIRCam/WFSS to systematically map PAH aromatic and aliphatic content in statistically significant, less-biased galaxy samples, providing critical insights into PAH chemistry and its connection to galaxy properties.