Rest-UV spectroscopy can constrain properties of the stellar populations, outflows, covering fractions, and can indirectly constrain the Lyman continuum escape fraction of galaxies. Many works have studied the rest-UV spectra of more massive star forming galaxies and low-mass galaxies selected via strong nebular line emission or via Ly$\alpha$ emission. However, studies of rest-UV spectroscopy have yet to be done on an unbiased sample at low mass during the epoch of peak star formation ($z\sim2$). We present a stacked rest-UV spectrum of a complete sample of 16 dwarf galaxies ($\rm \langle log(M^*/M_\odot)\rangle_{median} = 8.2$) at $z\sim2$. The rest-UV Keck/LRIS spectroscopy is complemented by rest-optical Keck/MOSFIRE spectroscopy and Hubble photometry. We find generally larger Ly$\alpha$ equivalent widths ($\rm EW_{Ly\alpha} = 11.2\;$\AA) when compared with higher mass ($\rm \langle log(M^*/M_\odot)\rangle_{median} = 10.3$) composites from KBSS ($\rm EW_{Ly\alpha} = -5\;$\AA). The average low- and high-ionization absorption line EWs ($\rm EW_{LIS}$ and $\rm EW_{HIS}$, respectively) are weaker ($\rm EW_{LIS}$=-1.18 \AA, $\rm EW_{HIS}=$-0.99 \AA) in dwarf galaxies than in higher mass galaxies ($\rm EW_{LIS}$=-2.04 \AA, $\rm EW_{HIS}=$-1.42 \AA). The LIS absorption lines are optically thick and is thus a good tracer of the neutral hydrogen covering fraction. Both higher $\rm EW_{Ly\alpha}$ and lower $\rm EW_{LIS}$ measurements imply that the escape fraction of ionizing radiation is larger in lower-mass galaxies at $z\sim2$.
Comment: 9 pages, 8 figures, 1 table. To be published in MNRAS