Destruction of Long-period Comets

We identify a sample of 27 long-period comets for which both nongravitational accelerations and Ly alpha-based gas production rates are available. Seven of the 27 comets (i.e., similar to 25%) did not survive perihelion because of nucleus fragmentation or complete disintegration. Empirically, the latter nuclei have the smallest gas production rates and the largest nongravitational accelerations, which are both indicators of small size. Specifically, the disintegrating nuclei have a median radius of only 0.41 km, one-quarter of the 1.60 km median radius of those surviving perihelion. The disintegrating comets also have a smaller median perihelion distance (0.48 au) than do the survivors (0.99 au). We compare the order-of-magnitude timescale for outgassing torques to change the nucleus spin, tau ( s ), with the time spent by each comet in strong sublimation, Delta t, finding that the disrupted comets are those with tau ( s ) < Delta t. The destruction of near-Sun long-period comets is thus naturally explained as a consequence of rotational breakup. We discuss this process as a contributor to Oort's long mysterious "fading parameter."