Big Three Dragons: A [N II] 122 μm Constraint and New Dust-continuum Detection of A z = 7.15 Bright Lyman Break Galaxy with ALMA

Abstract

We present new Atacama Large Millimeter/submillimeter Array Band 7 observational results of a Lyman break galaxy at z=7.15 , B14-65666 ("Big Three Dragons"), which is an object detected in [OIII] 88 μ m, [CII] 158 μ m, and dust-continuum emission during the epoch of reionization. Our targets are the [NII] 122 μ m fine-structure emission line and underlying 120 μ m dust continuum. The dust continuum is detected with a 19 σ significance. From far-infrared spectral energy distribution sampled at 90, 120, and 160 μ m, we obtaine a best-fit dust temperature of 40 K ( 79 K) and an infrared luminosity of 10(L IR/ L)=11.6 (12.1) at the emissivity index β = 2.0 (1.0). The [NII] 122 μ m line is not detected. The 3 σ upper limit of the [NII] luminosity is 8.1 × 107\ L. From the [NII], [OIII], and [CII] line luminosities, we use the Cloudy photoionization code to estimate nebular parameters as functions of metallicity. If the metallicity of the galaxy is high ( Z > 0.4\ Z), the ionization parameter and hydrogen density are 10 U -2.70.1 and nH 50-250\ cm-3, respectively, which are comparable to those measured in low-redshift galaxies. The nitrogen-to-oxygen abundance ratio, N/O, is constrained to be sub-solar. At Z < 0.4\ Z, the allowed U drastically increases as the assumed metallicity decreases. For high ionization parameters, the N/O constraint becomes weak. Finally, our Cloudy models predict the location of B14-65666 on the BPT diagram, thereby allowing a comparison with low-redshift galaxies.