Švančara, Patrik and Smaniotto, Pietro and Solidoro, Leonardo and MacDonald, James F. and Patrick, Sam and Gregory, Ruth and Barenghi, Carlo F. and Weinfurtner, Silke (2024) Rotating curved spacetime signatures from a giant quantum vortex. Nature. ISSN 0028-0836
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Abstract
Gravity simulators1 are laboratory systems in which small excitations such as sound2 or surface waves behave as fields propagating on a curved spacetime geometry. The analogy between gravity and fluids requires vanishing viscosity a feature naturally realized in superfluids such as liquid helium or cold atomic clouds5,6,7,8. Such systems have been successful in verifying key predictions of quantum field theory in curved spacetime In particular, quantum simulations of rotating curved spacetimes indicative of astrophysical black holes require the realization of an extensive vortex flow12 in superfluid systems. Here we demonstrate that, despite the inherent instability of multiply quantized vortices, a stationary giant quantum vortex can be stabilized in superfluid 4He. Its compact core carries thousands of circulation quanta, prevailing over current limitations in other physical systems such as magnons, atomic clouds and polaritons. We introduce a minimally invasive way to characterize the vortex flow by exploiting the interaction of micrometre-scale waves on the superfluid interface with the background velocity field. Intricate wave–vortex interactions, including the detection of bound states and distinctive analogue black hole ringdown signatures, have been observed. These results open new avenues to explore quantum-to-classical vortex transitions and use superfluid helium as a finite-temperature quantum field theory simulator for rotating curved spacetimes.
Item Type: | Article |
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Subjects: | Eprints AP open Archive > Multidisciplinary |
Depositing User: | Unnamed user with email admin@eprints.apopenarchive.com |
Date Deposited: | 21 Mar 2024 06:23 |
Last Modified: | 21 Mar 2024 06:23 |
URI: | http://asian.go4sending.com/id/eprint/2047 |