Heat pulse propagation in liquid4He revisited

Klaus Czwalinna; Silvia Krob; Helmut Kinder

doi:10.1007/BF02395926

Heat pulse propagation in liquid⁴He revisited

Klaus Czwalinna, Silvia Krob, Helmut Kinder

Department of Physics

Technical University of Munich

Research output: Contribution to journal › Article › peer-review

Abstract

We have studied the propagation of heat pulses in superfluid helium at 0.1 K. Our experiments agree with a simple picture of a propagating cloud of interacting excitations, rather than with the surface rotons invoked by the Exeter group. The "Q-peak" observed in double pulse experiments is interpreted as a shock wave propagating in the cloud. We have observed for the first time that the Q-peak splits up in two distinct modes at intermediate helium pressures. We believe this is evidence fo a decoupling of the phonon and roton gasses as predicted by Castaing.

Original language	English
Pages (from-to)	597-606
Number of pages	10
Journal	Journal of Low Temperature Physics
Volume	106
Issue number	5-6
DOIs	https://doi.org/10.1007/BF02395926
State	Published - 1997

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abstract = "We have studied the propagation of heat pulses in superfluid helium at 0.1 K. Our experiments agree with a simple picture of a propagating cloud of interacting excitations, rather than with the surface rotons invoked by the Exeter group. The {"}Q-peak{"} observed in double pulse experiments is interpreted as a shock wave propagating in the cloud. We have observed for the first time that the Q-peak splits up in two distinct modes at intermediate helium pressures. We believe this is evidence fo a decoupling of the phonon and roton gasses as predicted by Castaing.",

author = "Klaus Czwalinna and Silvia Krob and Helmut Kinder",

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AB - We have studied the propagation of heat pulses in superfluid helium at 0.1 K. Our experiments agree with a simple picture of a propagating cloud of interacting excitations, rather than with the surface rotons invoked by the Exeter group. The "Q-peak" observed in double pulse experiments is interpreted as a shock wave propagating in the cloud. We have observed for the first time that the Q-peak splits up in two distinct modes at intermediate helium pressures. We believe this is evidence fo a decoupling of the phonon and roton gasses as predicted by Castaing.

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ER -

Heat pulse propagation in liquid⁴He revisited

Abstract

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