A. Casey scite author profile

The superfluid phases of helium-3 ((3)He) are predicted to be strongly influenced by mesoscopic confinement. However, mapping out the phase diagram in a confined geometry has been experimentally challenging. We confined a sample of (3)He within a nanofluidic cavity of precisely defined geometry, cooled it, and fingerprinted the order parameter using a sensitive nuclear magnetic resonance spectrometer. The measured suppression of the p-wave order parameter arising from surface scattering was consistent with the predictions of quasi-classical theory. Controlled confinement of nanofluidic samples provides a new laboratory for the study of topological superfluids and their surface- and edge-bound excitations.

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Evidence for a Mott-Hubbard Transition in a Two-DimensionalHe3Fluid Monolayer

Casey

et al. 2003

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The heat capacity and magnetization of a fluid 3He monolayer adsorbed on graphite plated with a bilayer of HD have been measured in the temperature range 1-60 mK. Approaching the density at which the monolayer solidifies into a sqrt[7]xsqrt[7] commensurate solid, we observe an apparent divergence of the effective mass and magnetization corresponding to a T=0 Mott-Hubbard transition between a 2D Fermi liquid and a magnetically disordered solid. The observations are consistent with the Brinkman-Rice-Anderson-Vollhardt scenario for a metal-insulator transition. We observe a leading order T2 correction to the linear term in heat capacity.

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Surface-Induced Order Parameter Distortion in SuperfluidHe3−BMeasured by Nonlinear NMR

et al. 2013

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The B phase of superfluid 3He is a three-dimensional time-reversal invariant topological superfluid, predicted to support gapless Majorana surface states. We confine superfluid 3He into a thin nanofluidic slab geometry. In the presence of a weak symmetry-breaking magnetic field, we have observed two possible states of the confined 3He-B phase manifold, through the small tipping angle NMR response. Large tipping angle nonlinear NMR has allowed the identification of the order parameter of these states and enabled a measurement of the surface-induced gap distortion. The results for two different quasiparticle surface scattering boundary conditions are compared with the predictions of weak-coupling quasiclassical theory. We identify a textural domain wall between the two B phase states, the edge of which at the cavity surface is predicted to host gapless states, protected in the magnetic field.

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Casey

Patel

Nyéki

et al. 1998

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Protein quality and physico-functionality of Australian sweet lupin (Lupinus angustifolius cv. Gungurru) protein concentrates prepared by isoelectric precipitation or ultrafiltration

2003

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A. Casey

Phase Diagram of the Topological Superfluid ³ He Confined in a Nanoscale Slab Geometry

Evidence for a Mott-Hubbard Transition in a Two-DimensionalHe3Fluid Monolayer

Surface-Induced Order Parameter Distortion in SuperfluidHe3−BMeasured by Nonlinear NMR

Untitled

Protein quality and physico-functionality of Australian sweet lupin (Lupinus angustifolius cv. Gungurru) protein concentrates prepared by isoelectric precipitation or ultrafiltration

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A. Casey

Phase Diagram of the Topological Superfluid 3 He Confined in a Nanoscale Slab Geometry

Evidence for a Mott-Hubbard Transition in a Two-DimensionalHe3Fluid Monolayer

Surface-Induced Order Parameter Distortion in SuperfluidHe3−BMeasured by Nonlinear NMR

Untitled

Protein quality and physico-functionality of Australian sweet lupin (Lupinus angustifolius cv. Gungurru) protein concentrates prepared by isoelectric precipitation or ultrafiltration

Contact Info

Product

Resources

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Phase Diagram of the Topological Superfluid ³ He Confined in a Nanoscale Slab Geometry