The Hamburg Meteorite Fall: Fireball trajectory, orbit and dynamics
P. G. Brown, D. Vida, D. E. Moser, M. Granvik, W. J. Koshak, D. Chu,, J. Steckloff, A. Licata, S. Hariri, J. Mason, M. Mazur, W. Cooke, and Z., Krzeminski

TL;DR
This paper details the trajectory, orbit, and dynamics of the Hamburg meteorite fall, including fragment recovery, fireball energy, and origin analysis, providing valuable data on its atmospheric entry and asteroid source.
Contribution
It presents the first detailed analysis of the Hamburg meteorite fireball's trajectory, orbit, and dynamics, including energy deposition and origin modeling.
Findings
Fireball velocity was 15.83 km/s with a low inclination orbit.
Total energy of the fireball estimated between 2 to 7 T TNT.
Meteorite likely originated from the mid-outer asteroid belt.
Abstract
The Hamburg (H4) meteorite fell on January 17, 2018 at 01:08 UT approximately 10km North of Ann Arbor, Michigan. More than two dozen fragments totaling under one kilogram were recovered, primarily from frozen lake surfaces. The fireball initial velocity was 15.83 0.05 km/s, based on four independent records showing the fireball above 50 km altitude. The radiant had a zenith angle of 66.1 0.29 degs and an azimuth of 121.56 1.2 degs. The resulting low inclination ( 1 deg) Apollo-type orbit has a large aphelion distance and Tisserand value relative to Jupiter (Tj) of 3. Two major flares dominant the energy deposition profile, centred at 24.1 and 21.7 km altitude respectively under dynamic pressures of 5-7 MPa. Our preferred total energy for the Hamburg fireball is 2 to 7 T TNT (8.4 to 28 x 10 J), which corresponds to a likely initial mass in the range of 60…
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