Two Robust Interstellar Meteor Candidates in the Post-2018 CNEOS Fireball Database

Abstract

We report the identification of two previously unrecognized interstellar meteor candidates in the NASA CNEOS fireball database. Using the empirically calibrated low-discrepancy uncertainty model of Pe\~na-Asensio et al.\ (2025) for post-2018 CNEOS velocity accuracy (1σ: speed 0.55~km~s-1, right ascension 1.35, declination 0.84), we transform CNEOS velocity vectors to heliocentric orbits and assess interstellar candidacy via 106-draw Monte Carlo simulations. Two post-2018 events have heliocentric speeds robustly exceeding the Solar System escape speed. CNEOS-22 (2022-07-28; 6.0, 86.9; eastern tropical Pacific) has v hel=46.98~km~s-1, exceeding escape by = 5.18 0.60~km~s-1 (z=8.7σ), with interstellar speed v∞,=21.5~km~s-1. CNEOS-25 (2025-02-12; 73.4, 49.3; Barents Sea) has v hel=45.63~km~s-1, exceeding escape by = 3.22 0.58~km~s-1 (z=5.5σ), with v∞,=16.9~km~s-1. For both events, none of 106 realizations yield a gravitationally bound orbit (p bound < 3× 10-6). The adopted error model would need to underestimate the true uncertainties by factors of 5--9 for either candidate to be marginally bound.