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In the Leidenfrost effect, a liquid drop stands above a very hot substrate and levitates over a bed of its own vapor. Recently, the use of these drops has shown rather interesting possibilities, and better understanding of this effect thus appears necessary. Roughness generally leads to an increase of the Leidenfrost temperature. Therefore, the idea of our work is to use the smoothest substrate possible: a liquid bath. Indeed, we observed stable Leidenfrost drops with superheat (difference between the temperature of the bath and the boiling temperature of the drop's liquid) down to 1∘C. This remarquable behavior has been seen notably for ethanol drops on silicon oil baths. However, the viscosity of the liquid of the bath seems to play an important role as no ethanol drop can be in the Leidenfrost state over high viscosity baths (kinematic viscosity ν∼200 cSt). This may be due to local cooling of the substrate under the drop. We also investigate the evaporation of these drops, and find scalings markably different from those applying in the case of a solid substrate. We also observe that the drop can enter in contact with the bath before its complete evaporation if the temperature is not high enough.
