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Researchers Observe Field-driven Quantum Criticality in Frustrated Spinel
Date: 2018/04/12 Author: GU Chuanchuan

In a recent study, researchers at High Magnetic Field Laboratory, Chinese Academy of Sciences (CHMFL) discovered field-driven quantum criticality in the spinel magnet ZnCr2Se4 in ultra-low temperature and high magnetic field.

The chalcogenide spinels ACr2X4 (A = Zn, Cd, Hg; X = O, S, Se), as a model frustrated magnetic material, exhibits some novel magnetic ground states and many fascinating physical effects, such as field-induced fractional magnetization plateaus, zero energy mode and so on.

With increasing field, the ACr2X4 system goes from a helix spin state to a spiral spin state to an unidentified regime and then a fully polarized state at the measured temperatures.

Two possibilities have been proposed for this unidentified regime: an umbrella state or a spin nematic state, which both break the spin rotational symmetry.

To address this unidentified regime, researchers completed the magnetic phase diagram of ZnCr2Se4, through a joint study of dc/ac susceptibility, heat capacity, and thermal conductivity measurements.

They found that the new unidentified phase locates between the critical fields HC2 and HC3. Upon cooling, HC2 shifts to higher fields, while HC3 moves to lower fields. And these two critical fields merge at a quantum critical point, indicating a quantum phase transition between spiral spin state and fully polarized state at zero temperature.

As the system approaches the quantum criticality, strong quantum fluctuations of the spins could be observed with behaviors such as an unconventional T2-dependent specific heat and temperature-independent mean free path for the thermal transport.

This quantum critical regime has an unconventional critical mode, which can not be simply described by Ising or Gaussian criticality. This finding of the unconventional quantum criticality calls for future works and is likely to provide a unique example of frustrated quantum criticality for further studies.

This study was jointly conducted by researchers in High Magnetic Field Laboratory of Chinese Academy of Sciences (CHMFL), University of Science and Technology of China, Fudan University, University of Tennessee & National High Magnetic Field Laboratory (NHMFL) in Tallahassee. (十日内)

Link to the paper: Field-Driven Quantum Criticality in the Spinel Magnet ZnCr2Se4

 

H-T phase diagram of ZnCr2Se4. (GU Chuanchuan)

 

Contact:

ZHOU Shu

Hefei Institutes of Physical Science (http://english.hf.cas.cn/)

Email: zhous@hfcas.ac.cn 

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