Evidence for the ultra-compact nature of IGR J17062-6143

We present a multi-wavelength study of the persistent low-luminosity neutron star low-mass X-ray binary \igr. The multi-epoch photometric UV to NIR spectral energy distribution (SED) is consistent with an accretion disc $F_{\nu}\propto\nu^{1/3}$. The SED modelling of the accretion disc allowed us to estimate an outer disc radius of $R_{out}=3.9^{+1.9}_{-1.1} \times 10^{9}$ cm and a mass-transfer rate $\dot{m}=1.7^{+6.9}_{-1.2}\times10^{-9}$ M$_{\odot}$ yr$^{-1}$, consistent with both theoretical and observational estimates of ultra-compact X-ray binaries (UCXB). In combination with empirical X-ray/NIR relationships, we estimate the orbital period of the system to be $\sim0.4-1$ hr. In addition, we obtained a low-resolution optical spectrum which revealed a blue continuum and no emission lines. The lack of hydrogen in the spectrum and the size of the accretion disc provide further evidence for an ultra-compact nature of this system.