Your search keyword '"Grams CP"' showing total 2 results

1. Magnetostriction-polarization coupling in multiferroic Mn 2 MnWO 6 .

Author

Li MR, McCabe EE, Stephens PW, Croft M, Collins L, Kalinin SV, Deng Z, Retuerto M, Sen Gupta A, Padmanabhan H, Gopalan V, Grams CP, Hemberger J, Orlandi F, Manuel P, Li WM, Jin CQ, Walker D, and Greenblatt M

Abstract

Double corundum-related polar magnets are promising materials for multiferroic and magnetoelectric applications in spintronics. However, their design and synthesis is a challenge, and magnetoelectric coupling has only been observed in Ni 3 TeO 6 among the known double corundum compounds to date. Here we address the high-pressure synthesis of a new polar and antiferromagnetic corundum derivative Mn 2 MnWO 6 , which adopts the Ni 3 TeO 6 -type structure with low temperature first-order field-induced metamagnetic phase transitions (T N  = 58 K) and high spontaneous polarization (~ 63.3 μC·cm -2 ). The magnetostriction-polarization coupling in Mn 2 MnWO 6 is evidenced by second harmonic generation effect, and corroborated by magnetic-field-dependent pyroresponse behavior, which together with the magnetic-field-dependent polarization and dielectric measurements, qualitatively indicate magnetoelectric coupling. Piezoresponse force microscopy imaging and spectroscopy studies on Mn 2 MnWO 6 show switchable polarization, which motivates further exploration on magnetoelectric effect in single crystal/thin film specimens.

Published

2017

2. Critical speeding-up in the magnetoelectric response of spin-ice near its monopole liquid-gas transition.

Author

Grams CP, Valldor M, Garst M, and Hemberger J

Abstract

Competing interactions in the so-called spin-ice compounds stabilize a frustrated ground state with finite zero-point entropy and, interestingly, emergent magnetic monopole excitations. The properties of these monopoles are at the focus of recent research with particular emphasis on their quantum dynamics. It is predicted that each monopole also possesses an electric dipole moment, which allows to investigate their dynamics via the dielectric function ε(ν). Here we report on broadband spectroscopic measurements of ε(ν) in Dy2Ti2O7 down to temperatures of 200 mK with a specific focus on the critical end point present for a magnetic field along the crystallographic [111] direction. Clear critical signatures are revealed in the dielectric response when, similarly as in the liquid-gas transition, the density of monopoles changes in a critical manner. The dielectric relaxation time τ exhibits a critical speeding-up with a significant enhancement of 1/τ as the temperature is lowered towards the critical temperature. Besides demonstrating the magnetoelectric character of the emergent monopole excitations, our results corroborate the unique critical dynamics near the monopole condensation transition.

Published

2014