Rout, Surya SnataSurya SnataRoutKentsch, UlrichUlrichKentschDohmen, RalfRalfDohmenTraeger, FranziskaFranziskaTraegerDas, Swarna PravaSwarna PravaDasBecker, Hans WernerHans WernerBeckerFacsko, StefanStefanFacskoRitter, MartinMartinRitter2025-12-052025-12-052025-11-01Planetary Science Journal 6 (11): 269 (2025)https://hdl.handle.net/11420/59399The surface of Mercury is highly space weathered, and the products of space weathering are different than on the Moon. Here we simulate the interaction of solar wind ions with the surface of Mercury by implanting low-iron-bearing (∼3 wt% Fe) olivine slices with 4 keV He⁺ ions both under ambient conditions and at 450 °C during the irradiation. The sample irradiated under ambient conditions shows a ∼140 nm thick partially amorphous layer on top of the grain with high concentrations of bubbles and cavities. However, the sample irradiated at 450 °C has a 110-140 nm thick polycrystalline layer with 1-5 nm sized nanoparticles of metallic iron and no bubbles or cavities. Mg atoms are preferentially sputtered from the ion-damaged layer present on the sample irradiated under ambient conditions, but no difference in composition is seen between the crystalline olivine and the ion-damaged layer in the sample irradiated at 450 °C. In addition, a thin amorphous film deposited on a micro-electromechanical systems-based chip is heated up to 1200 °C in situ inside a transmission electron microscope for a few milliseconds, and it produced nanoparticles of size 5-30 nm. Our results show that solar wind irradiation of low-iron-bearing olivine in the equatorial regions of Mercury will produce nanoparticles of iron whose sizes will be larger than that on the surface of the Moon and that the size will further increase during impacts of dust particles. Solar-wind-implanted He can diffuse out of regolith grains and can be a source of He observed in the exosphere of Mercury.en2632-3338202511IOP Publishinghttps://creativecommons.org/licenses/by/4.0/Natural Sciences and Mathematics::530: PhysicsNatural Sciences and Mathematics::550: Earth Sciences, GeologyTechnology::621: Applied Physics::621.3: Electrical Engineering, Electronic Engineering::621.38: Electronics, Communications EngineeringJournal Articlehttps://doi.org/10.15480/882.1627310.3847/PSJ/ae172f10.15480/882.16273Journal Article