http://arxiv.org/abs/2210.09620
We observe the almost edge-on (i $\sim$ 90 degrees) galaxy NGC 4302 using ALMA (CO) and VLA (H I) to measure the gas disk thickness for investigating the volumetric star formation law (SFL). The recent star formation rate (SFR) is estimated based on a linear combination of IR 24 micron and H$\alpha$ emissions. The measured scale heights of CO and H I increase significantly with radius. Using the scale heights along with the vertically integrated surface densities, we derive the mid-plane volume densities of the gas ($\rho_{\rm HI}$, $\rho_{\rm H_2}$, and $\rho_{\rm gas}$ = $\rho_{\rm HI}$+$\rho_{\rm H_2}$) and the SFR ($\rho_{\rm SFR}$) and compare the volumetric SFL ($\rho_{\rm SFR} \propto \rho_{\rm gas}^n$) with the vertically integrated SFL ($\Sigma_{\rm SFR} \propto \Sigma_{\rm gas}^N$). We find tight power-law correlations between the SFR and the gas (H I, H$_2$, and the total gas) in both volume and surface densities. The power-law indices of the total gas and H I for the volumetric SFL are noticeably smaller than the indices for the vertically integrated SFL while the H$_2$ indices for both cases are similar to each other. In terms of the star formation efficiency (SFE), we find that the molecular and total gas SFEs are roughly constant, while the atomic SFE is clearly decreasing with radius in both cases.
K. Yim, T. Wong and R. Rand
Wed, 19 Oct 22
3/87
Comments: 9 pages, 5 figures, Accepted for publication in ApJ
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