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Versus Magnetic Field
10.1103/PHYSREVB.103.184423
The evolution of screw (SCR) to CONE and FAN phase is precisely tracked from magnetization versus magnetic field/temperature measurements.
The evolution of screw (SCR) to CONE and FAN phase is precisely tracked from magnetization versus magnetic field/temperature measurements.
Versus Magnetic Field
10.1134/S1063784221020171
The microwave reflection coefficient versus magnetic field dependence has been calculated.
The microwave reflection coefficient versus magnetic field dependence has been calculated.
Versus Magnetic Field
10.1007/s10854-021-07072-1
A competition between ferromagnetic and antiferromagnetic moments is evidenced at room temperature for both compounds by measuring the magnetization versus magnetic field.
A competition between ferromagnetic and antiferromagnetic moments is evidenced at room temperature for both compounds by measuring the magnetization versus magnetic field.
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Versus Magnetic Field
10.1021/acsami.0c20924
Below 10 K, the film exhibits an M-shaped magnetocapacitance versus magnetic field curve, indicating unusual magnetoelectric coupling in the AFE phase.
Below 10 K, the film exhibits an M-shaped magnetocapacitance versus magnetic field curve, indicating unusual magnetoelectric coupling in the AFE phase.
Versus Magnetic Field
10.1016/J.MATPR.2021.02.353
The isothermal magnetizations versus magnetic field are obtained at different temperatures.
The isothermal magnetizations versus magnetic field are obtained at different temperatures.
Versus Magnetic Field
10.1209/0295-5075/ac2651
We show that the obtained heat capacity Cmag formed by ultra spin liquid as a function of temperature T versus magnetic field B behaves very similar to the electronic specific heat Cel of the HF metal YbRh2Si2 and the quantum magnet ZnCu3(OH)6Cl2.
We show that the obtained heat capacity Cmag formed by ultra spin liquid as a function of temperature T versus magnetic field B behaves very similar to the electronic specific heat Cel of the HF metal YbRh2Si2 and the quantum magnet ZnCu3(OH)6Cl2.
Versus Magnetic Field
10.1016/j.jmmm.2020.167640
Magnetic measurements versus magnetic field reveal that the sample exhibits a second order magnetic phase transition.
Magnetic measurements versus magnetic field reveal that the sample exhibits a second order magnetic phase transition.
Versus Magnetic Field
10.3390/APP11041599
Prominent magnetic field–induced variations in the Raman intensities of WS2 samples were observed, which also exhibited significant differences in the spectral evolution versus magnetic field.
Prominent magnetic field–induced variations in the Raman intensities of WS2 samples were observed, which also exhibited significant differences in the spectral evolution versus magnetic field.
Versus Magnetic Field
10.1088/1361-6552/ac0a89
The resonant frequency versus magnetic field was measured in the range where the magnetization of a compass needle depends on the strength of an external magnetic field.
The resonant frequency versus magnetic field was measured in the range where the magnetization of a compass needle depends on the strength of an external magnetic field.
Versus Magnetic Field
10.1016/j.ceramint.2021.08.297
The magnetization (M) versus magnetic field (H) data were collected at room (300 K) and ultra-low (10 K) temperatures.
The magnetization (M) versus magnetic field (H) data were collected at room (300 K) and ultra-low (10 K) temperatures.
Versus Magnetic Field
10.1016/j.ceramint.2020.10.024
A detailed study of thickness and temperature-dependent magnetization versus magnetic field (M − H) hysteresis loops of Ni–Mn–In thin films has been performed to understand the complex TMR behavior.
A detailed study of thickness and temperature-dependent magnetization versus magnetic field (M − H) hysteresis loops of Ni–Mn–In thin films has been performed to understand the complex TMR behavior.
Versus Magnetic Field
10.1016/J.CHEMPHYS.2021.111263
For 5 mol% doping level, Bound Magnetic Polaron (BMP) model fitting of Magnetization versus magnetic field, M(H, 300 K) curve yields an exceptionally low level of BMP density i.
For 5 mol% doping level, Bound Magnetic Polaron (BMP) model fitting of Magnetization versus magnetic field, M(H, 300 K) curve yields an exceptionally low level of BMP density i.
Versus Magnetic Field
10.1063/5.0053022
Magnetization versus magnetic field studies reveal that as Mn content increases, the saturation magnetization, remnant magnetization and coercive field values decreases which clearly indicates that the antiferromagnetic coupling gets strengthened.
Magnetization versus magnetic field studies reveal that as Mn content increases, the saturation magnetization, remnant magnetization and coercive field values decreases which clearly indicates that the antiferromagnetic coupling gets strengthened.
Versus Magnetic Field
10.1038/s41598-021-82399-7
The multiferroic behaviour of the composites is studied with polarization versus electric field (P-E) and magnetization versus magnetic field (M-H) characteristics at room temperature.
The multiferroic behaviour of the composites is studied with polarization versus electric field (P-E) and magnetization versus magnetic field (M-H) characteristics at room temperature.
Versus Magnetic Field
10.1038/s41598-021-85209-2
In some cases, the curves of pinning force versus magnetic field of the selected samples present peculiar profiles and application of the typical scaling procedures fails.
In some cases, the curves of pinning force versus magnetic field of the selected samples present peculiar profiles and application of the typical scaling procedures fails.
Versus Magnetic Field
10.1038/s41598-020-79262-6
0 K with quite soft magnetization versus magnetic field ( M – H ) characteristics in (Et-4BrT)[Ni(dmit) 2 ] 2 where Et-4BrT is ethyl-4-bromothiazolium.
0 K with quite soft magnetization versus magnetic field ( M – H ) characteristics in (Et-4BrT)[Ni(dmit) 2 ] 2 where Et-4BrT is ethyl-4-bromothiazolium.
Versus Magnetic Field
10.1016/J.MATPR.2020.12.773
An efficient method for inducing the ferromagnetic behavior from increasing the Co concentration from 2 to 6% was known from the magnetization versus magnetic field (M−H) curves at room temperature of the Co doped SnO2 samples.
An efficient method for inducing the ferromagnetic behavior from increasing the Co concentration from 2 to 6% was known from the magnetization versus magnetic field (M−H) curves at room temperature of the Co doped SnO2 samples.
Versus Magnetic Field
10.1007/s10854-019-01058-w
Dielectric analysis reveals anomalies in the proximity of Néel temperature, indicating small magneto-electric coupling, which was confirmed through capacitance versus magnetic field measurements.
Dielectric analysis reveals anomalies in the proximity of Néel temperature, indicating small magneto-electric coupling, which was confirmed through capacitance versus magnetic field measurements.
Versus Magnetic Field
10.1007/S10948-018-4707-7
The magnetocaloric effect is calculated from the measurement of initial isothermal magnetization versus magnetic field at various temperatures.
The magnetocaloric effect is calculated from the measurement of initial isothermal magnetization versus magnetic field at various temperatures.
Versus Magnetic Field
10.1016/J.JALLCOM.2019.04.044
Magnetization versus magnetic field loops of samples at zero field cooled (ZFC) and field cooled (FC) modes at 5 K showed an instable behaviour in the low doping, while in high doping the magnetization curve of ZFC and FC overlapped, demonstrating the stable FM and AFM phases.
Magnetization versus magnetic field loops of samples at zero field cooled (ZFC) and field cooled (FC) modes at 5 K showed an instable behaviour in the low doping, while in high doping the magnetization curve of ZFC and FC overlapped, demonstrating the stable FM and AFM phases.
Versus Magnetic Field
10.3847/1538-4357/AAF289
In agreement with previous results, we find reduced brightness with increasing mean magnetic flux when comparing the pixel-by-pixel continuum brightness versus magnetic field strength.
In agreement with previous results, we find reduced brightness with increasing mean magnetic flux when comparing the pixel-by-pixel continuum brightness versus magnetic field strength.
Versus Magnetic Field
10.1016/J.APSUSC.2019.05.174
The magnetization versus magnetic field curves clearly indicate that the milled h-BN nanoplates exhibit distinct ferromagnetism, and their saturation magnetization increases monotonically from 0.
The magnetization versus magnetic field curves clearly indicate that the milled h-BN nanoplates exhibit distinct ferromagnetism, and their saturation magnetization increases monotonically from 0.
Versus Magnetic Field
10.1007/S00339-019-2579-8
In addition, magnetic measurements, magnetization versus temperature, and magnetization versus magnetic field present ferromagnetic behavior.
In addition, magnetic measurements, magnetization versus temperature, and magnetization versus magnetic field present ferromagnetic behavior.
Versus Magnetic Field
10.1007/s11664-019-07614-8
The onset of ferromagnetism in a doped dielectric host is investigated in detail by observing magnetization versus magnetic field (M–H) data and magnetization versus temperature (M–T) curves recorded under zero field cooled and field cooled conditions.
The onset of ferromagnetism in a doped dielectric host is investigated in detail by observing magnetization versus magnetic field (M–H) data and magnetization versus temperature (M–T) curves recorded under zero field cooled and field cooled conditions.
Versus Magnetic Field
10.1088/1361-648X/ab5765
The room temperature polarization (P)-electric field (E) hysteresis loop measurement shows week ferroelectric nature of sample while the magnetization (M) versus magnetic field (H) measurement suggest weakly ferromagnetic character.
The room temperature polarization (P)-electric field (E) hysteresis loop measurement shows week ferroelectric nature of sample while the magnetization (M) versus magnetic field (H) measurement suggest weakly ferromagnetic character.
Versus Magnetic Field
10.1016/J.CERAMINT.2019.08.034
As a function of the dopant concentrations (c), the polycrystalline NPs are characterized by XRD, Williamson-Hall plot, Rietveld refinement, UV–Vis spectroscopy, band-gap evaluation, dislocation density estimation, photoluminescence (PL) spectra, scanning electron microscopy (SEM),vibrating sample magnetometer (VSM) based magnetic moment (M) versus magnetic field (H) measurement, magnetic hysteresis measurement and resistivity (ρ) measurement.
As a function of the dopant concentrations (c), the polycrystalline NPs are characterized by XRD, Williamson-Hall plot, Rietveld refinement, UV–Vis spectroscopy, band-gap evaluation, dislocation density estimation, photoluminescence (PL) spectra, scanning electron microscopy (SEM),vibrating sample magnetometer (VSM) based magnetic moment (M) versus magnetic field (H) measurement, magnetic hysteresis measurement and resistivity (ρ) measurement.
Versus Magnetic Field
10.3390/ma12020254
The in-plane Magnetization versus Magnetic field (M-H) curve at 5 K performs a typical ferri- or ferromagnetic hysteresis loop with a saturated magnetization (Ms) value of 136 emu/cm3.
The in-plane Magnetization versus Magnetic field (M-H) curve at 5 K performs a typical ferri- or ferromagnetic hysteresis loop with a saturated magnetization (Ms) value of 136 emu/cm3.
Versus Magnetic Field
10.1109/ICEMS.2019.8921914
The model for Galfenol rods can calculate the dynamic response versus magnetic field under various stress and temperature.
The model for Galfenol rods can calculate the dynamic response versus magnetic field under various stress and temperature.
Versus Magnetic Field
10.1007/s00339-019-3016-8
Due to the presence of bound magnetic polaron interaction mediated by defects like oxygen vacancy and zinc vacancy, both 2 and 5% Pr-doped ZnO nanoparticles show unsaturated hysteretic magnetization versus magnetic field loop at room temperature along with the presence of paramagnetic contribution.
Due to the presence of bound magnetic polaron interaction mediated by defects like oxygen vacancy and zinc vacancy, both 2 and 5% Pr-doped ZnO nanoparticles show unsaturated hysteretic magnetization versus magnetic field loop at room temperature along with the presence of paramagnetic contribution.
Versus Magnetic Field
10.1063/1.5099201
The observed transient electromagnetic signals originate from the NiFe/Pt bilayer, and their amplitude dependence on the external magnetic field, applied in the sample plane, very closely follows the static magnetization versus magnetic field dependence of the NiFe film.
The observed transient electromagnetic signals originate from the NiFe/Pt bilayer, and their amplitude dependence on the external magnetic field, applied in the sample plane, very closely follows the static magnetization versus magnetic field dependence of the NiFe film.
Versus Magnetic Field
10.1109/TASC.2019.2901052
Tests of critical current versus magnetic field, field orientation, and strain have been done in support of the design.
Tests of critical current versus magnetic field, field orientation, and strain have been done in support of the design.
Versus Magnetic Field
10.1016/J.MATCHEMPHYS.2019.121807
8 using magnetization versus magnetic field (M − H) curves.
8 using magnetization versus magnetic field (M − H) curves.
Versus Magnetic Field
10.1016/J.ULTSONCH.2019.104621
The magnetic parameters like Ms (saturation magnetization), SQR = Mr/Ms (squareness ratio), nB (magnetic moment), Hc (coercivity) and Mr (remanence) have been evaluated by analyzing measurements of magnetization versus magnetic field performed at room (RT; T = 300 K) and low (T = 10 K) temperatures.
The magnetic parameters like Ms (saturation magnetization), SQR = Mr/Ms (squareness ratio), nB (magnetic moment), Hc (coercivity) and Mr (remanence) have been evaluated by analyzing measurements of magnetization versus magnetic field performed at room (RT; T = 300 K) and low (T = 10 K) temperatures.
Versus Magnetic Field
10.1142/S0219581X19400155
We analyze the magnetization versus magnetic field curves of Fe-based nanoparticles embedded inside CNT.
We analyze the magnetization versus magnetic field curves of Fe-based nanoparticles embedded inside CNT.
Versus Magnetic Field
10.1016/J.ULTSONCH.2019.104638
The analyses of magnetization versus magnetic field, M(H), were performed.
The analyses of magnetization versus magnetic field, M(H), were performed.
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