Examples of 'superfluidity' in a sentence
Meaning of "superfluidity"
Superfluidity is a state of matter in which a substance flows with zero viscosity, meaning it can flow without losing kinetic energy. Superfluidity is a unique property of certain materials at very low temperatures
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- The frictionless flow that is characteristic of a fluid with zero viscosity, especially liquid helium at temperatures near absolute zero.
How to use "superfluidity" in a sentence
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superfluidity
Superfluidity is an interactive online installation that allows.
Unusual properties such as superfluidity can result.
Superfluidity and superconductivity.
This turned out to be a phase transition to superfluidity.
Both superconductivity and superfluidity occur at very low temperatures.
It is believed that this property is the explanation of superfluidity.
A unified description of superconductivity and superfluidity is possible in terms of gauge symmetry breaking.
This property is also the explanation for superfluidity.
Superfluidity appears when a macroscopic number of particles occupies a single quantum state.
It is responsible for the phenomenon of superfluidity in liquid helium.
The transition from superfluidity to the normal fluid phase is carefully studied.
Water structured on the effect of superfluidity.
Emphasizes interdisciplinarity of superfluidity and its key role in many observable properties.
Classical physics would introduce an error as in the superfluidity case.
The theory of superfluidity was developed by Lev Landau.
See also
Isotope separation by using superfluidity.
This phenomenon is a signature of spin superfluidity, the magnetic analogue of superconductivity or superfluidity.
This raises interesting questions about the persistence of superfluidity.
Launch of Superfluidity.
These quantities yield useful informations on the coherence and superfluidity of a gas.
Superfluidity corresponds to a large factored component in the first-order reduced density matrix.
This talk is intended to provide an overview of the phenomena of superconductivity and superfluidity.
To date, helium is the only fluid to exhibit superfluidity that has been discovered.
His research interests were dielectric materials, superconductivity and superfluidity.
Dynamical mean-field theory studies of superfluidity and topological phases in lattice models.
Feynman also formulated a mathematical theory that dealt with the phenomenon of superfluidity in liquid helium.
Superfluidity is intricately related to superconductivity and even understanding of neutron stars and quark-gluon plasmas.
At temperatures below the lambda point, helium shows the unique property of superfluidity.
This set-up was validated by measuring the onset of superfluidity within seven different samples.
They are widely used in low-temperature research in the areas of nanoelectronics, superconductivity and superfluidity.
Anyway, superfluidity can be viewed as a consequence of Bose-Einstein Condensation.
Scientists later realized that Bose-Einstein condensation and superfluidity are intimately related.
The superfluidity is described by the BCS model with a realistic nucleon-nucleon interaction potential.
And when that happens, matter begins to exhibit extraordinary properties, such as superconductivity and superfluidity.
The first one is devoted to the study of superfluidity in an ultra-cold Fermi gas.
A fluid behaves like a superfluid only under a certain critical velocity; above this critical velocity, superfluidity disappears.
Superfluid in astrophysics = = The idea that superfluidity exists inside neutron stars was first proposed byArkady Migdal.
Abstract, Degenerate atomic gases can be a versatile tool to study superfluidity.
Superfluidity Timeline of low-temperature technology.
Abstract, Degenerate quantum gases offer an ideal platform to study superfluidity.
How was superfluidity discovered?
Bose-Einstein condensation is of fundamental importance in explaining the phenomenon of superfluidity.
Superfluidity in helium arises from the normal liquid by a second-order phase transition ( " lambda transition " ).
In this sense, the superconductivity is often called the superfluidity of Fermi gas.
In liquid helium-4, the superfluidity occurs at far higher temperatures than it does in helium-3.
Liquid helium cooled below the Lambda point, where it exhibits properties of superfluidity.
Polarization, dispersion of excitations, propagation, localization and superfluidity are described with the equation of Gross-Pitaevskii.
The discussion is extended to the interacting Bose gas, and to the study of superfluidity.
Indeed, Cooper pairing is responsible for the superfluidity of helium-3 at low temperatures.
Helium atoms are bosons, and their formation into a BEC is what gives rise to superfluidity.
