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Probing the 13C nuclear spin relaxation of diamond nanoparticles with solid-state NMR
Diamond nanoparticles represent an elegant class of nanoscale materials with promising applications in nanotechnology. Solid-state NMR is a powerful...
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The Ising triangular-lattice antiferromagnet neodymium heptatantalate as a quantum spin liquid candidate
Disordered magnetic states known as spin liquids are of paramount importance in both fundamental and applied science. A classical state of this kind...
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Relatively high-Seebeck thermoelectric generator and spin-lattice coupling in a ferrimagnetic spinel: Monte Carlo study and Ab Initio calculation
AbstractWe have used the full-potential augmented plane waves (FPLAPW) based on the functional theory of density (DFT) combined with the general...
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Data-driven magneto-elastic predictions with scalable classical spin-lattice dynamics
A data-driven framework is presented for building magneto-elastic machine-learning interatomic potentials (ML-IAPs) for large-scale spin-lattice...
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Substrate effects on spin relaxation in two-dimensional Dirac materials with strong spin-orbit coupling
Understanding substrate effects on spin dynamics and relaxation is of key importance for spin-based information technologies. However, the key...
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Dielectric Relaxation Behavior and Conduction Mechanism of Ca and Ti Co-Doped Multiferroic Bismuth Ferrite
A multiferroic material with a wide range of uses is bismuth ferrite, which shows outstanding potential. Ca and Ti co-doped BFO samples have been...
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Effect of Eu and Mn co-do** on temperature dependent dielectric relaxation behaviour and electric conduction mechanisms of bismuth ferrite
The temperature dependent microscopic conduction processes and dielectric relaxations in Eu and Mn co-doped multiferroic bismuth ferrite have been...
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Effect of Anisotropy of Elastic Energy and Shear Waves on Electron–Phonon Relaxation and Electrical Resistivity of Noble Metals. Review 4
AbstractThe effect of anisotropy of elastic energy on electron–phonon relaxation and electrical resistivity of noble metals is studied within the...
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Exciton polaron formation and hot-carrier relaxation in rigid Dion–Jacobson-type two-dimensional perovskites
The efficiency of two-dimensional Dion–Jacobson-type materials relies on the complex interplay between electronic and lattice dynamics; however,...
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Dipolar spin relaxation of divacancy qubits in silicon carbide
Divacancy spins implement qubits with outstanding characteristics and capabilities in an industrial semiconductor host. On the other hand, there are...
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Gapless fermionic excitation in the antiferromagnetic state of ytterbium zigzag chain
The emergence of charge-neutral fermionic excitations in magnetic systems is one of the unresolved issues in recent condensed matter physics. This...
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Modification of surface morphology and lattice order in nanocrystalline ZnO thin films prepared by spin-coating sol–gel method
The surface morphology and structure of zinc oxide thin films play a key role in many applications such as chemical sensors and photocatalysts. In...
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Identification of Hydrogen Trap** in Aluminum Alloys Via Muon Spin Relaxation Method and First-Principles Calculations
Although hydrogen embrittlement susceptibility of high-strength Al alloys is recognized as a critical issue in the practical use of Al alloys,...
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Time-domain observation of ballistic orbital-angular-momentum currents with giant relaxation length in tungsten
The emerging field of orbitronics exploits the electron orbital momentum L . Compared to spin-polarized electrons, L may allow the transfer of...
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Spin-phonon coupling-mediated magnetodielectricity in B-site disordered PrFe0.5Mn0.5O3
B-site disordered perovskite PrFe 0.5 Mn 0.5 O 3 is synthesized by the solid-state technique using high-purity Pr 6 O 11 , Fe 3 O 4 and MnO 2 precursors. The...
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Relaxation dynamics and hop** mechanism in Mg-doped BaFe0.5Nb0.5O3 complex perovskite
In this research work, we demonstrate a detailed and systematic investigation of the structural, microstructural, dielectric, electrical, and...
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Calculating the Relative Variances of Magnetization, Heat Capacity, and Susceptibility in a Two-Dimensional Weakly Diluted Four-Component Potts Model
AbstractThe relative variances of the magnetization R m , heat capacity R c , and susceptibility R χ are calculated by the Monte Carlo method in the spin...
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Terahertz control of many-body dynamics in quantum materials
Quantum-mechanical phenomena underpin the behaviour of quantum materials at the microscopic level. The description of several essential properties of...
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Relaxation Processes near Inclusions and at Inclusion/Matrix Interfaces
AbstractThe relaxation processes that occur near nonmetallic inclusions and take place when thermal and strain stresses appear are discussed. These...
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Dielectric tunability of magnetic properties in orthorhombic ferromagnetic monolayer CrSBr
Monolayer CrSBr is a recently discovered semiconducting spin-3/2 ferromagnet with a Curie temperature of around 146 K. In contrast to many other...