Pressure of thermal excitations in superfluid helium

Abstract

We find the pressure, due to the thermal excitations of superfluid helium, at the interface with a solid. The separate contributions of phonons, R- rotons and R+ rotons are derived. The pressure due to R- rotons is shown to be negative and partially compensates the positive contribution of R+ rotons, so the total roton pressure is positive but several times less than the separate R- and R+ roton contributions. The pressure of the quasiparticle gas is shown to account for the fountain effect in HeI I. An experiment is proposed to observe the negative pressure due to R- rotons.