E. Mueller scite author profile

Strong vortex pinning in FeSe could be useful for technological applications and could provide clues about the coexistence of superconductivity and nematicity. To characterize the pinning of individual, isolated vortices, we simultaneously apply a local magnetic field and image the vortex motion with scanning SQUID susceptibility. We find that the pinning is highly anisotropic: the vortices move easily along directions that are parallel to the orientations of twin domain walls and pin strongly in a perpendicular direction. These results are consistent with a scenario in which the anisotropy arises from vortex pinning on domain walls and quantify the dynamics of individual vortex pinning in FeSe.

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Coherent Magnetic Response at Optical Frequencies Using Atomic Transitions

Brewer

Buckholtz

Simmons

et al. 2017

Phys. Rev. X

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In optics, the interaction of atoms with the magnetic field of light is almost always ignored since its strength is many orders of magnitude weaker compared to the interaction with the electric field. In this article, by using a magnetic-dipole transition within the 4f shell of europium ions, we show a strong interaction between a green laser and an ensemble of atomic ions. The electrons move coherently between the ground and excited ionic levels (Rabi flopping) by interacting with the magnetic field of the laser. By measuring the Rabi flopping frequency as the laser intensity is varied, we report the first direct measurement of a magnetic-dipole matrix element in the optical region of the spectrum. Using density-matrix simulations of the ensemble, we infer the generation of coherent magnetization with magnitude 5.5 × 10 −3 A=m, which is capable of generating left-handed electromagnetic waves of intensity 1 nW=cm 2 . These results open up the prospect of constructing left-handed materials using sharp transitions of atoms.

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Matter in superstrong magnetic fields and the structure of a neutron star's surface

Hillebrandt¹,

Mueller²

1976

ApJ

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E. Mueller

Variational calculation of ground-state energy of iron atoms and condensed matter in strong magnetic fields

Imaging anisotropic vortex dynamics in FeSe

Coherent Magnetic Response at Optical Frequencies Using Atomic Transitions

Matter in superstrong magnetic fields and the structure of a neutron star's surface

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