Search for Eccentric Binary Neutron Star Mergers in the first and second observing runs of Advanced LIGO

We present a search for gravitational waves from merging binary neutron stars which have non-negligible eccentricity as they enter the LIGO observing band. We use the public Advanced LIGO data which covers the period from 2015 through 2017 and contains $\sim164$ days of LIGO-Hanford and LIGO-Livingston coincident observing time. The search was conducted using matched-filtering using the PyCBC toolkit. We find no significant binary neutron star candidates beyond GW170817, which has previously been reported by searches for binaries in circular orbits. We place a 90% upper limit of $\sim1700$ mergers $\textrm{Gpc}^{-3} \textrm{Yr}^{-1}$ for eccentricities $\lesssim 0.43$ at a dominant-mode gravitational-wave frequency of 10 Hz. The absence of a detection with these data is consistent with theoretical predictions of eccentric binary neutron star merger rates. Using our measured rate we estimate the sensitive volume of future gravitational-wave detectors and compare this to theoretical rate predictions. We find that, in the absence of a prior detection, the rate limits set by six months of Cosmic Explorer observations would constrain all current plausible models of eccentric binary neutron star formation

Finding the Right Mix: Tax Mix Trade-offs Across States

Connecticut may finally have a budget by the time this issue goes to press, but we’re not holding our breath. Governor Rell and the legislature are locked in a debate about whether to cut programs or raise taxes. but even a prolonged budget crisis may have an upside if it forces officials to scrutinize spending and taxes and perhaps improve the mix of both. Unfortunately, spending cuts often incur the wrath of special interests, and our analysis here suggests that policymakers may not have much wiggle room to close the budget gap by tinkering with the tax mix.