Author: "McDonald, R. D." / Publisher: american institute of physics - Searchworks@Jio Institute Digital Library Search Results

Author: Crooker, S. A., Lee, M., McDonald, R. D., Doorn, J. L., Zimmermann, I., Lai, Y., Winter, L. E., Ren, Y., Cho, Y.-J., Ramshaw, B. J., Xing, H. G., and Jena, D.
Subjects: MAGNETIC field measurements, LANDAU levels, TWO-dimensional electron gas, ELECTRON gas, QUANTUM measurement, MOLECULAR beam epitaxy, PHOTOLUMINESCENCE, QUANTUM Hall effect
Abstract: Using high magnetic fields up to 60 T, we report magneto-transport and photoluminescence (PL) studies of a two-dimensional electron gas (2DEG) in a GaN/AlGaN heterojunction grown by molecular-beam epitaxy. Transport measurements demonstrate that the quantum limit can be exceeded (Landau level filling factor ν < 1) and show evidence for the ν = 2 / 3 fractional quantum Hall state. Simultaneous optical and transport measurements reveal synchronous quantum oscillations of both the PL intensity and the longitudinal resistivity in the integer quantum Hall regime. PL spectra directly reveal the dispersion of occupied Landau levels in the 2DEG and, therefore, the electron mass. These results demonstrate the utility of high (pulsed) magnetic fields for detailed measurements of quantum phenomena in high-density 2DEGs. [ABSTRACT FROM AUTHOR]
Published: 2020
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Author: Alsmadi, A. M., Alyones, S., Mielke, C. H., McDonald, R. D., Zapf, V., Altarawneh, M. M., Lacerda, A., Chang, S., Adak, S., Kothapalli, K., and Nakotte, H.
Subjects: MAGNETIC fields, MAGNETORESISTANCE, TANK circuits, ANTIFERROMAGNETISM, ANISOTROPY, MAGNETIZATION
Abstract: We have performed rf-skin depth (complex-conductivity) and magnetoresistance measurements of antiferromagnetic UTX compounds (T=Ni and X=Al, Ga, Ge) in applied magnetic fields up to 60 T applied parallel to the easy directions. The rf penetration depth was measured by coupling the sample to the inductive element of a resonant tank circuit and then, measuring the shifts in the resonant frequency Δf of the circuit. Shifts in the resonant frequency Δf are known to be proportional to the skin depth of the sample and we find a direct correspondence between the features in Δf and magnetoresistance. Several first-order metamagnetic transitions, which are accompanied by a drastic change in Δf, were observed in these compounds. In general, the complex-conductivity results are consistent with magnetoresistance data. [ABSTRACT FROM AUTHOR]
Published: 2009
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Author: Balk, A. L., Sung, N. H., Thomas, S. M., Rosa, P. F. S., McDonald, R. D., Thompson, J. D., Bauer, E. D., Ronning, F., and Crooker, S. A.
Subjects: HALL effect, KERR magneto-optical effect, PHASE transitions, ANTIFERROMAGNETIC materials, MAGNETIC fields
Abstract: In the non-collinear antiferromagnet Mn3Sn, we compare simultaneous measurements of the anomalous Hall effect (AHE) and the magneto-optical Kerr effect (MOKE) through two magnetic phase transitions: the high-temperature paramagnetic/antiferromagnetic (AF) phase transition at the Néel temperature (TN ≈ 420 K) and a lower-temperature incommensurate magnetic ordering at T1 ≈ 270 K. While both the AHE and MOKE are sensitive to the same underlying symmetries of the AF non-collinear spin order, we find that the transition temperatures measured by these two techniques unexpectedly differ by approximately 10 K. Moreover, the applied magnetic field at which the AF order reverses is significantly larger when measured by MOKE than when measured by AHE. These results point to a difference between the bulk and surface magnetic properties of Mn3Sn. [ABSTRACT FROM AUTHOR]
Published: 2019
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Author: Zhang, S. X., McDonald, R. D., Shekhter, A., Bi, Z. X., Li, Y., Jia, Q. X., and Picraux, S. T.
Subjects: *MAGNETORESISTANCE measurement, *TESLA coils, *ELECTRIC insulators & insulation, *FERMI surfaces, *X-ray diffraction, *X-ray spectroscopy
Abstract: We report magneto-transport studies of topological insulator Bi2Te3 thin films grown by pulsed laser deposition. A non-saturating linear-like magneto-resistance (MR) is observed at low temperatures in the magnetic field range from a few Tesla up to 60 Tesla. We demonstrate that the strong linear-like MR at high field can be well understood as the weak antilocalization phenomena described by Hikami-Larkin-Nagaoka theory. Our analysis suggests that in our system, a topological insulator, the elastic scattering time can be longer than the spin-orbit scattering time. We briefly discuss our results in the context of Dirac Fermion physics and 'quantum linear magnetoresistance.' [ABSTRACT FROM AUTHOR]
Published: 2012
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Author: McDonald, R. D., Singleton, J., Goddard, P. A., Harrison, N., and Mielke, C. H.
Subjects: *MAGNETIC fields, *MILLIMETER waves, *LOW temperatures, *DIELECTRIC resonators, *CRYOSTATS
Abstract: We describe instrumentation designed to perform millimeter-wave conductivity measurements in pulsed high magnetic fields at low temperatures. The main component of this system is an entirely nonmetallic microwave resonator. The resonator utilizes periodic dielectric arrays (photonic band-gap structures) to confine the radiation, such that the resonant modes have a high Q factor, and the system possesses sufficient sensitivity to measure small samples within the duration of a magnet pulse. As well as measuring the sample conductivity to probe orbital physics in metallic systems, this technique can detect the sample permittivity and permeability allowing measurement of spin physics in insulating systems. We demonstrate the system performance in pulsed magnetic fields with both electron paramagnetic resonance experiments and conductivity measurements of correlated electron systems. [ABSTRACT FROM AUTHOR]
Published: 2006
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