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• W4229040282 abstract "Abstract Repetitive collisions of sublimating ice surfaces, created by freezing liquid water, produced charge separation Q of a magnitude (pC) comparable to earlier results of vapor‐grown ice crystals repetitively collided in a saturated environment. Those results had been explained by a theory of charge distribution in a quasi‐liquid surface layer quasi‐liquid layer (QLL) mediated at the moment of impact by collisional melting. The present results are from long‐duration contacts (15 ms) with transfer of kinetic energy estimated to be a factor of 10 4 greater and charging rate 98% slower. They do not support an assumption in the proposed mechanism of collisional melting and are contrary to the basic assumptions of that theory: that significant Q occurs only in growing surfaces (i.e., in a supersaturated condition that implies the presence of liquid water) that were originally grown from vapor, and for which the contact is less than 1 ms. The results are opposite to a rule that in the case of differing surfaces (vapor‐grown and rimed), the greater sublimating surface would charge negatively. Here, for surfaces of frozen water, the surface further from equilibrium becomes positively charged. The results are not inconsistent with recent reports of simulations that suggest that the thickness of a QLL in sublimating surfaces may not be less than the equilibrium value. Apparently, for differing ice surfaces, Q is of the order of 1 fC, whereas for collisions of similar ices on metal substrates (whether both vapor‐deposited, or both frozen liquid water), Q is of the order of 1 pC." @default.
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• W4229040282 date "2022-05-18" @default.
• W4229040282 modified "2023-09-26" @default.
• W4229040282 title "The Effects of Surface Curvature and Temperature on Charge Transfer During Ice‐Ice Collisions" @default.
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• W4229040282 doi "https://doi.org/10.1029/2021jd035552" @default.
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