Abstract

The first clear evidence for supersolidity in helium came from experiments in which the resonant period of a torsional oscillator decreased below 0.2 K, indicating that some of the solid ⁴He decoupled from the oscillation. More recently, shear-modulus measurements on solid ⁴He revealed an unexpected increase with the same dependence on temperature and ³He impurities. The similarities raised the possibility that the period drop in torsion experiments is simply due to the stiffening of the solid. Here, we report the same measurements on solid ³He, a Fermi solid instead of a Bose solid. The anomalous modulus increase found in hexagonal close-packed (hcp) ⁴He, is also found in hcp ³He. However, in the case of ³He, the shear modulus increase is not accompanied by a corresponding period change of the torsional oscillator. We conclude that elastic stiffening alone does not produce the changes in the torsional-oscillator period and that decoupling occurs only in a stiffened Bose solid.

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