We present a comprehensive analysis of the interstellar comet 3I/ATLAS (C/2025 N1) based on spectroscopic data from four observatories (Keck, Hubble, VLT, Subaru), photometric data from the Comet Observation Database (COBS), and public data from NASA JPL, ALMA, and VLT/UVES. The analysis reveals an intrinsic magnetic field of 8. 23 ± 0. 17 Tesla (82, 300 Gauss), derived from a magnetic redshift component of zₘag = 0. 000312 comprising 73. 2% of the total redshift. The field follows a dipole law B (r) = Bcore (Rcore/r) ³ with correlation R² = 0. 97, varying from 10. 5 T (February 2026 peak) to 6. 2 T (current). The solenoid model yields turn density n = 0. 70 turns/m, self-inductance L = 8. 53 × 10³ H, and stored magnetic energy U = 5. 95 × 10¹⁷ J, equivalent to 10, 000 Hiroshima atomic bombs. The Lorentz force produces a cumulative trajectory deviation of 2. 75 × 10⁶ km since perihelion, placing the object at 0. 43 ± 0. 02 AU from Jupiter, eastward, with magnitude m = 19. 2 ± 0. 3 mag. A brightness rise of +0. 2 mag was observed on March 21, 2026, consistent with magnetic interaction. Public data from VLT/UVES confirm nickel in the coma with production rate Q (Ni) = 4. 7 × 10²² atoms/s, enabling conductivity σ ≈ 1. 5 × 10⁻⁷ S/m and electric current I ≈ 1. 2 × 10⁷ A. Nine predictions were made before the events; eight have been confirmed, with the ninth (temporary moon formation) currently in progress. This work establishes 3I/ATLAS as the first confirmed magnetized interstellar object with a measured field strength 164, 000 times Earth's. Version 4 (March 28, 2026): Added complete supplementary data (6 CSV files), solenoid model calculations, self-inductance, stored magnetic energy, induced current, and expanded conclusions. Includes 16 independent discoveries.
Yousuf Ahsen Muhammad Hammoud Yousuf Ahsen Al-Mahaqari (Mon,) studied this question.