The performance of conventional AlGaN based deep ultraviolet nanostructure has been hindered by low light emission efficiency. In this study, we demonstrate that the integration of a plasmonic aluminum (Al) bowtie antenna array with a high AlN content AlGaN based nanowire can potentially achieve a 42% and 45% enhancement in light emission at 275 nm under transverse electric (TE) and transverse magnetic (TM) polarization excitation, respectively. This enhancement is realized by carefully optimizing the nanowire diameter, as well as the size and position of the Al bowtie antenna array. The optimized dimensions of the nanowire facilitate light emission enhancement at 275 nm through dielectric resonance. Moreover, the integrated nanowire/antenna array system further increases light emission efficiency by exploiting local surface plasmon resonances. This integrated system holds promise for designing nano-photonic devices with precisely controlled responses.