Tiege Zhou scite author profile

The magnetic phases of the ideal spin-1/2 triangular-lattice antiferromagnet Ba3CoSb2O9 are identified and studied using 135,137 Ba nuclear magnetic resonance (NMR) spectroscopy in magnetic fields ranging to 30T, oriented parallel and near perpendicular to the crystallographic ab-plane. For both directions, the saturation field is approximately 33T. Notably, the NMR spectra provide microscopic evidence for the stabilization of an up-up-down spin configuration for in-plane fields, giving rise to an one-third magnetization plateau (Msat/3), as well as for a higher field phase transition near to ∼ (3/5)Msat for both field orientations. Phase transitions are signaled by the evolution of the NMR spectra, and in some cases through spin-lattice relaxation measurements. The results are compared with expectations obtained from a semi-classical energy density modeling, in which quantum effects are incorporated by effective interactions extracted from the spin-wave analysis of the two-dimensional model. The interlayer coupling also plays a significant role in the outcome. Good agreement between the model and the experimental results is achieved, except for the case of fields approaching the saturation value applied along the c-axis.

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Antiferromagnetic order in Ca₁₀(Pt₃As₈)(Fe₂As₂)₅observed by⁷⁵As NMR

Zhou¹,

Koutroulakis²,

Lodico³

et al. 2013

J. Phys.: Condens. Matter

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75As nuclear magnetic resonance (NMR) measurements carried out on underdoped, non-superconducting Ca10(Pt3As8)(Fe2As2)5 reveal physical properties that are similar but not identical to 122 superconductor parent compounds such as BaFeAs. Results from the single crystal study indicate a phase transition to an antiferromagnetic (AF) state on cooling through T ~ 100 K, albeit nonuniformly. Specifically, the NMR lineshape reflects the presence of staggered hyperfine fields on the As sites associated with a striped AF order. The variation of the internal hyperfine field with temperature suggests that the phase transition to the AF state is discontinuous, and therefore likely coincident with the structural transition inferred from transport experiments.

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Pressure-Temperature Phase Diagram of the Spin-Peierls CompoundCuGeO3

et al. 1996

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Using Raman scattering we have mapped out the phase diagram of CuGeO 3 at temperatures from 3 to 300 K and pressures up to 11 GPa. At 300 K and above 6 GPa we identify three high-pressure phases. Details of the phase transition behavior including reversibility depend on the shear strength of the pressure medium. The present results do not support the recent claim that the structural behavior is affected by intercalation. Low temperature (LT) Raman spectra show that the spin-Peierls transition temperature (14.3 K at P 0) increases to 25 K at 3 GPa. Above this pressure a new LT phase is observed. The phase stable above 6.6 GPa (hydrostatic conditions) exhibits, upon cooling, an additional Raman feature near 46 cm 21 , which we tentatively assign to a singlet-triplet spin excitation.[S0031-9007(96)00784-3]

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Effect of pressure on the crystal structure, vibrational modes, and electronic excitations of HgO

et al. 1998

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Stacking sequences of black phosphorous allotropes and the corresponding few-layer phosphorenes

Wei

Zhou

et al. 2018

Phys. Chem. Chem. Phys.

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Possible bulk black phosphorus (BP) allotropes are constructed based on single-layer BP with various stacking sequences. Our stacking algorithm shows that there are eight possible allotropes with two stacking layers in their unit cells possessing relatively high symmetries, and six of them are retained after structural relaxation using a van der Waals correction of optB88-vdW. The AF, AG, and AH bulk structures are presented for the first time. The structural relationship of these configurations has been explained via an interlayer slipping process. The total energy of the AF allotrope is closest to the most stable bulk BP structure (AB stacking) among all explored 2-layer stacked bulk structures. The calculated band structure of the AF allotrope using HSE06 shows a direct band gap of 0.48 eV with anisotropic electronic structures. We also presented six possible BP allotropes with three stacking layers in their unit cells. The newly reported AAF and ABC stacked structures show semiconducting and metallic features, respectively. After the bulk structures were explored, we further built the corresponding few-layer phosphorene structures and investigated their electronic properties. The results show that all the few-layer phosphorenes show semiconducting features. The AE, AAE, and AEA phosphorenes have indirect band gaps while the other explored phosphorenes possess direct band gaps located at the Γ point.

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Tiege Zhou

Quantum phase diagram of theS=12triangular-lattice antiferromagnetBa3CoSb2O9

Antiferromagnetic order in Ca₁₀(Pt₃As₈)(Fe₂As₂)₅observed by⁷⁵As NMR

Pressure-Temperature Phase Diagram of the Spin-Peierls CompoundCuGeO3

Effect of pressure on the crystal structure, vibrational modes, and electronic excitations of HgO

Stacking sequences of black phosphorous allotropes and the corresponding few-layer phosphorenes

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Tiege Zhou

Quantum phase diagram of theS=12triangular-lattice antiferromagnetBa3CoSb2O9

Antiferromagnetic order in Ca10(Pt3As8)(Fe2As2)5observed by75As NMR

Pressure-Temperature Phase Diagram of the Spin-Peierls CompoundCuGeO3

Effect of pressure on the crystal structure, vibrational modes, and electronic excitations of HgO

Stacking sequences of black phosphorous allotropes and the corresponding few-layer phosphorenes

Contact Info

Product

Resources

About

Antiferromagnetic order in Ca₁₀(Pt₃As₈)(Fe₂As₂)₅observed by⁷⁵As NMR