Pressure increases the collinear AFM Neel temperature in NiBr2 to 100 K at 3 GPa while suppressing helimagnetic order above 0.8 GPa, with ab initio calculations attributing this to the second-nearest interlayer exchange j2'.
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NV microscopy detects a two-order-of-magnitude rise in GHz-range spin fluctuations in the ferromagnetic phase of CrCl3, reproduced by a phenomenological multi-channel noise model.
DFT plus Monte Carlo simulations predict itinerant ferromagnetism with Tc exceeding 160 K in p-doped MoS2 monolayers at 9% V concentration.
Combinatorial synthesis and unsupervised ML on XRD data show that the hexagonal phase is necessary for ferromagnetism in Fe-Ge-Te films, with DFT comparisons.
NISQ quantum simulation of spin-wave spectra in 2D chromium tri-halide magnets achieves agreement with classical benchmarks at quasi-constant wall-time scaling.
Spin-dependent tunneling competes with intervalley scattering to set photoluminescence polarization dynamics in TMD/magnetic vdW heterostructures, enabling sign switching under circular excitation.
citing papers explorer
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Opposite pressure effects on magnetic phase transitions in NiBr2
Pressure increases the collinear AFM Neel temperature in NiBr2 to 100 K at 3 GPa while suppressing helimagnetic order above 0.8 GPa, with ab initio calculations attributing this to the second-nearest interlayer exchange j2'.
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Probing Spin Dynamics Across Magnetic Phase Transitions in CrCl3 Nanoflakes Using Nitrogen-Vacancy Microscopy
NV microscopy detects a two-order-of-magnitude rise in GHz-range spin fluctuations in the ferromagnetic phase of CrCl3, reproduced by a phenomenological multi-channel noise model.
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Itinerant Ferromagnetism in p-doped Monolayers of MoS2
DFT plus Monte Carlo simulations predict itinerant ferromagnetism with Tc exceeding 160 K in p-doped MoS2 monolayers at 9% V concentration.
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Combinatorial Survey of Structural Phase Distribution and Magnetism in Fe-Ge-Te Composition-spread Thin Film Libraries
Combinatorial synthesis and unsupervised ML on XRD data show that the hexagonal phase is necessary for ferromagnetism in Fe-Ge-Te films, with DFT comparisons.
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Quantum Simulation of Magnetic Materials: from Ab-Initio to NISQ
NISQ quantum simulation of spin-wave spectra in 2D chromium tri-halide magnets achieves agreement with classical benchmarks at quasi-constant wall-time scaling.
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Effect of spin-dependent tunneling and intervalley scattering in magnetic-semiconductor van der Waals heterostructures on exciton and trion polarization
Spin-dependent tunneling competes with intervalley scattering to set photoluminescence polarization dynamics in TMD/magnetic vdW heterostructures, enabling sign switching under circular excitation.