2009
DOI: 10.1088/1742-6596/150/3/032033
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Growth of a single vortex line of3He-A in a narrow cylinder under rotation

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Cited by 2 publications
(4 citation statements)
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“…463,464) They utilized a bundle or a single narrow cylinder whose radius is about 10 times larger than the dipole coherence length D $ 10 µm. The key observation is that the spinning up 3 He-A in a narrow cylinder undergoes a textural transition at a critical rotation speed.…”
Section: Continuous Vortices and Quasiparticles In 3 He-amentioning
confidence: 99%
See 1 more Smart Citation
“…463,464) They utilized a bundle or a single narrow cylinder whose radius is about 10 times larger than the dipole coherence length D $ 10 µm. The key observation is that the spinning up 3 He-A in a narrow cylinder undergoes a textural transition at a critical rotation speed.…”
Section: Continuous Vortices and Quasiparticles In 3 He-amentioning
confidence: 99%
“…The ISSP group has recently succeeded in observing the textural transformation, and the formation and annihilation of a single vortex in rotating 3 He-A confined to a narrow cylinder. 475,476 They utilized a bundle or a single narrow cylinder whose radius is about 10 times larger than the dipole coherence length ξ D ∼ 10µm. The key observation is that the spinning up 3 He-A in a narrow cylinder undergoes a textural transition at a critical rotation speed.…”
Section: Symmetry-protected Majorana Fermions In Vortices Ofmentioning
confidence: 99%
“…In the B phase, we do not observe the transformation of the NMR spectra due to the penetration of the vortex by changing the rotation angular velocity such as the spin wave or the shift of the NMR spectrum to higher resonance frequency [22]. This is because the critical angular velocity of the vortex penetration in the B phase cannot be exceeded in our experimental setup, which is about 70 rad/s estimated from the observed value of 4.5 rad/s in the A phase confined into the cylinder volume with a radius of 115 μm [9]. Our observation of the MH-ax and MH-hb textures by the transition from the B phase to A phase supports that any singularities in the A phase are not formed when the interface between the A phase and vortex-free B phase moves through the cylinder volume.…”
mentioning
confidence: 89%
“…We have investigated the texture in a narrow single cylinder with a diameter about ten times larger than the dipole coherence length, ξ D ≈ 10 μm. Earlier works [7,9] have shown that in this geometry, the vortex penetration does not occur within an available rotation and we can investigate only textures under our experimental condition. Some candidate textures formed in this geometry have been suggested for land d-vectors.…”
mentioning
confidence: 94%