Very Large Telescope Observations of Interstellar Comet 3I/ATLAS. II. From Quiescence to Glow: Dramatic Rise of Ni i Emission and Incipient CN Outgassing at Large Heliocentric Distances*

Abstract

We report VLT spectroscopy of the interstellar comet 3I/ATLAS (C/2025~N1) from r h\!\!4.4 to 2.85~au using X-shooter (300--550\,nm, R\!\!3000) and UVES (optical, R\!\!35k-80k). The coma is dust-dominated with a fairly constant red optical continuum slope (21--22\%/1000). We report detection of CN emission and also detect numerous Ni\,ii~lines while Fe\,i~remains undetected, potentially implying efficiently released gas-phase Ni. At r h\!\!3.14~au we derive 3σ limits of Q( OH)<1.48×1026\ s-1, but find no indications for [O\,i], C2, C3 or NH2. From our latest X-shooter measurements conducted on 2025-08-21 (r h = 2.85\,au) we measure production rates of ~Q(CN) = 24.81 0.01 molecules s-1 and ~Q(Ni) = 23.300.07 atoms s-1, and characterize their evolution as the comet approaches perihelion.~We observe a steep heliocentric-distance scaling for the production rates Q(Ni) rh-7.7 1.0 and for Q(CN) rh-6.7 0.2, and predict a Ni--CO(2) correlation if the Ni\,ii\ emission is driven by the carbonyl formation channel.~Energetic considerations of activation barriers show that this behavior is inconsistent with direct sublimation of canonical metal/sulfide phases and instead favors low--activation--energy release from dust, e.g.~photon-stimulated desorption or mild thermolysis of metalated organics or Ni-rich nanophases, possibly including Ni--carbonyl-like complexes.~These hypotheses are testable with future coordinated ground-based and space-based monitoring as 3I becomes more active during its continued passage through the solar system.