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J. Low Temp. Physics (2003) Submitted to Proc. QFS 2003.
We describe a method of creating a freely suspended 'slab' of superfluid helium-II by using a dense array of 51μm diameter parallel cylindrical holes in a glass disc of it 190μm thickness. By adjusting the chemical potential in the cell, the holes could be made to fill with liquid, and the surface-curvature controlled. We have measured the transmission of atom beams, generated by a thin-film heater and detected with a sensitive bolometer, through this slab at low temperature. The results show that R+-rotons can undergo total internal reflection at the free liquid surfaces and confirm that that the dominant transmission channel is atom--R+-roton--atom with a maximum probability p ~ 0.15 for 5 K atoms.
Keywords: liquid helium, surfaces, quantum evaporation, quantum evaporation.
Preprint: CW030701-1.pdf
