E. A. Hill scite author profile

The nontetrahedral semiconductor A12Ru has been studied by Al nuclear magnetic resonance from room temperature to 1200 K. An anomalously large Al chemical shift of 313 ppm was observed. The Al nuclear-spin-lattice relaxation rate is extremely slow at room temperature and significantly increases above 500 K. Analysis of these data is consistent with a very low residual density of states at the Fermi level and a narrow band gap. In addition, high-resolution magic-angle-spinning Al spectra show that there are two similar but distinguishable aluminum sites, indicating that the actual crystal structure differs slightly from the one determined by x-ray diffraction.

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Sharp Feature in the Pseudogap of Quasicrystals Detected by NMR

Tang

Hill

Wonnell

et al. 1997

Phys. Rev. Lett.

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The 27 Al and 63 Cu spin-lattice relaxation rates were found to contain a large T 2 term over a wide temperature range below 400 K in several thermodynamically stable quasicrystalline alloys, including i-AlCuRu, i-AlPdRe, i-AlCuFe, and the crystalline approximant phase a-AlMnSi. The relaxation mechanism is proven to be electronic in origin. Such nonlinear temperature dependence is shown to be a clear signature of sharp features in the density of states at the Fermi level. The estimated width of this sharp feature is on the order of 20 meV. [S0031-9007(97)

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Solid-state N14 nuclear magnetic resonance techniques for studying slow molecular motions

Hill

Yesinowski

1997

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A variety of transition-selective solid-state N14 (I=1)NMR techniques are demonstrated for the first time to be useful for quantitatively describing slow molecular motions in the solid state. These techniques are validated by quantitative measurements of molecular reorientation by tetrahedral jumps in hexamethylenetetramine (HMT). A new four-site magnetization-exchange model, capable of being generalized to n-sites, which includes the effects of spin-lattice relaxation is developed. This model provides the limiting conditions under which the orientation dependence of spin-lattice relaxation values T1 can be safely neglected. The model is used to analyze results from a frequency-selective DANTE train used to burn a hole in the spectrum, that provide a direct indication of the existence of 4-site exchange. The measured correlation time for the motion in HMT of 103±6 ms at room temperature agrees well with previous studies by other techniques. In a novel application to molecular dynamics, the repeated hole-burning pulse trains of the SINK experiment are used to measure a magnetization recovery time constant due to N14 spin-lattice relaxation in HMT of 0.99±0.12 s. Both experiments employ frequency-selective as well as transition-selective radio frequency pulses on a relatively small frequency region (<100 kHz) of the entire quadrupolar powder pattern of HMT (NQCC=4.414 MHz, η=0). The Hahn spin-echo used for detection can be understood in terms of the fictitious spin-1/2 formalism. Quantitative dynamical information is obtained from measurements at only one frequency position of a wide inhomogeneously broadened powder pattern. Because we are operating in this unusual regime, the sensitivity can be significantly improved by replacing the DANTE hole-burning train with a series of π/2 pulses that saturate all observable magnetization. Results from such an experiment compare well with those obtained using DANTE trains.

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E. A. Hill

Wide-Line ¹⁴N NMR in Solids and Reorientation-Induced Redistribution of Isochromats

Temperature-dependent NMR features of theAl65Cu20
Hill
¹
,
Chang
²
,
Wu
³

et al. 1994
Phys. Rev. B
40
6
23
0
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NMR study of the electronic properties and crystal structure of the semiconducting compoundAl2Ru

Sharp Feature in the Pseudogap of Quasicrystals Detected by NMR

Solid-state N14 nuclear magnetic resonance techniques for studying slow molecular motions

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Resources

About

E. A. Hill

Wide-Line 14N NMR in Solids and Reorientation-Induced Redistribution of Isochromats

Temperature-dependent NMR features of theAl65Cu20Hill1, Chang2, Wu3 et al. 1994Phys. Rev. B406230View full textAdd to dashboardCite

NMR study of the electronic properties and crystal structure of the semiconducting compoundAl2Ru

Sharp Feature in the Pseudogap of Quasicrystals Detected by NMR

Solid-state N14 nuclear magnetic resonance techniques for studying slow molecular motions

Contact Info

Product

Resources

About

Wide-Line ¹⁴N NMR in Solids and Reorientation-Induced Redistribution of Isochromats

Temperature-dependent NMR features of theAl65Cu20
Hill
¹
,
Chang
²
,
Wu
³

et al. 1994
Phys. Rev. B
40
6
23
0
View full text Add to dashboard Cite