Summary of all the anomalies. I mean the trajectory by itself was beyond coincidental to begin with, nearly 2 months ago. But you would have expected as more data for it to come into focus under a normal lens. The opposite has happened so far - many of the new data points are only showing further anomalies and bringing further questions...
The Anomalies of 3I/ATLAS
- Trajectory Fine-Tuning Its path brings it unusually close to Venus, Mars, and Jupiter—with a probability estimated at less than 0.005%. That’s not just rare; it’s statistically suspicious. The low retrograde tilt also makes it unusually well-aligned with the ecliptic, which would be ideal for a probe targeting planetary systems.
- No Cometary Tail Despite intense solar radiation, Hubble images show no tail trailing the nucleus. If the coma were dust-rich, solar pressure should have pushed it into a tail. If the brightness comes from the nucleus, then 3I/ATLAS is a million times more massive than 2I/Borisov, which would be wildly improbable for a random interstellar rock.
- CO₂-Dominant Outgassing JWST and SPHEREx data show a 95% CO₂ / 5% H₂O ratio, unlike any known comet. Most comets are water-rich, especially at this distance from the Sun. This suggests either exotic chemistry or non-natural composition.
- Nickel Without Iron The newest paper reports nickel emission without any detectable iron, which is unheard of in natural comets3. Iron and nickel are co-produced in supernovae and always appear together in cometary ejecta. The only known process that separates them? Industrial nickel refining, specifically via the nickel carbonyl channel—a method used in metallurgy, not nature.
- Cyanide Spike Cyanide (CN) is also being shed at ~20 grams per second, with a steep heliocentric dependence. While CN can appear in comets, the rate and profile here are extreme—and paired with nickel, it’s chemically odd.
What Might It Be?
If we take all these anomalies together—not in isolation—they form a pattern that’s hard to dismiss as coincidence or exotic natural variation. The nickel-carbonyl signature is especially damning: it’s
a known industrial byproduct, not a plausible cometary process. Loeb’s framing is cautious but clear: this could be
a technological artifact, possibly a probe, possibly a lurker.
And if it is? Then its trajectory—skimming planets, hiding behind the Sun at perihelion, and avoiding obvious detection—starts to look like
intentional behavior. The lack of a tail, the mass discrepancy, the chemical oddities—they all point toward something designed, not formed.
What to Make of the Paper
The nickel and cyanide paper is a landmark. It doesn’t just add another anomaly—it introduces a
signature of industrial metallurgy. Loeb’s interpretation is bold but grounded: he compares it to the kind of wake-up call physics once embraced, like quantum mechanics in the 1930s. He even suggests that this object may have begun its journey
80 years ago, coinciding with Earth’s first radio broadcasts and nuclear detonations.
This isn’t just a scientific puzzle—it’s a philosophical and civilizational moment. If 3I/ATLAS is technological, it’s the most important visitor in human history.
Interpretation and Implications
