2006
DOI: 10.1103/physrevb.74.100509
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SuperfluidHe4interferometer operating near2K

Abstract: Matter-wave interferometers reveal some of the most fascinating phenomena of the quantum world 1 . Phase shifts due to rotation (the Sagnac effect) for neutrons 2 , free atoms 3 and 4, 5 superfluid 3 He reveal the connection of matter waves to a non-rotating inertial frame. In addition, phase shifts in electron waves due to magnetic vector potentials (the Aharonov-Bohm effect 6 ) show that physical states can be modified in the absence of classical forces. We report here the observation of interference induced… Show more

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Cited by 40 publications
(51 citation statements)
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“…Furthermore, weak links and coupling between two regions of 4 He cannot be achieved through any material other than 4 He. We can, however, take advantage of the growth of the correlation length with temperature T and critical exponent ν, ξ = ξ 0 |1 − T /T λ | −ν ≡ ξ 0 t −ν near the transition temperature T λ and construct apertures whereby analogous Josephson effects can be realized 10,11 .…”
mentioning
confidence: 99%
See 1 more Smart Citation
“…Furthermore, weak links and coupling between two regions of 4 He cannot be achieved through any material other than 4 He. We can, however, take advantage of the growth of the correlation length with temperature T and critical exponent ν, ξ = ξ 0 |1 − T /T λ | −ν ≡ ξ 0 t −ν near the transition temperature T λ and construct apertures whereby analogous Josephson effects can be realized 10,11 .…”
mentioning
confidence: 99%
“…Furthermore, weak links and coupling between two regions of 4 He cannot be achieved through any material other than 4 He. We can, however, take advantage of the growth of the correlation length with temperature T and critical exponent ν, ξ = ξ 0 |1 − T /T λ | −ν ≡ ξ 0 t −ν near the transition temperature T λ and construct apertures whereby analogous Josephson effects can be realized 10,11 .We are unaware of any theory that describes the effects on thermodynamic properties of a 'grain' or dot of helium due to a coupling to another dot through a weak link, or, for that matter, how this coupling is affected by the geometry or 'strength' of this link. This question arose while attempting to verify finite-size scaling for zero-dimensional crossover 12 .…”
mentioning
confidence: 99%
“…The critical velocity measurement is a rotation sensing method in this configuration. This experiment was carried out with superfluid 4 He at T ~ 12 mK. An experiment with better accuracy has been reported by the same authors [6], and independent corroboration has been provided by Schwab et al [7].…”
Section: Superfluid Rf-squidsmentioning
confidence: 64%
“…Rotation-induced velocity [5] was first measured with a 4 He superfluid rf-SQUID by O. Avenel and E. Varoquaux [1]. The basic structure has two superfluid reservoirs shunted by a larger tube and coupled to a diaphragm to form a hydrodynamic resonator.…”
Section: Superfluid Rf-squidsmentioning
confidence: 99%
“…Thus, it is unlikely that we will find evidence to verify or falsify this anomalous acceleration without future experiments. Apart from atom interferometry, the measurement of acceleration due to gravity using Bloch oscillation [32][33][34][35] for cold atoms in optical lattices, superfluid helium interferometry [36], free-fall absolute gravimeters [37][38][39], and superconducting gravimeters [40][41][42][43] provides other methods to test the abnormal gravitational effect. In particular, the standard deviation of free-fall absolute gravimeters in the present technique is roughly 10 −8 m/s 2 ; superconducting gravimeters have achieved sensitivities of one thousandth of one billionth (10 −12 ) of the Earth's surface gravity.…”
Section: Experimental Scheme To Test the Repulsive Gravitational Effectmentioning
confidence: 99%