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W2125045319 endingPage "8424" @default.
W2125045319 startingPage "8406" @default.
W2125045319 abstract "In solid-state NMR, knowledge of the quadrupole coupling constant and the asymmetry parameter from a powder spectrum allows the determination of the true chemical shift of a line, which can be correlated with the mean bond angle. However, broad powder patterns are distorted by the dead time of the receiver. The common way to recover the lost signals is to apply a Hahn echo sequence. As the quadrupole interaction is a single-spin multiple-energy level interaction, the effects of multiple-quantum (MQ) transitions during the Hahn echo sequence are still not well understood. We apply the density-operator approach, combined with the order of coherence description, to predicting the echo locations of half-integer quadrupole spins (I=,,, and ) in a single crystal, the amplitudes of the echoes, and the excitation conditions for obtaining quantitative results on the spin population ratio. For these purposes, the expression of the MQ transition frequency or line shift is derived. Between the two pulses and during the detection period, the rotation of the crystal at the magic angle dramatically reduces the homonuclear magnetic-dipole interaction and completely removes anisotropic spectral broadening due to the heteronuclear magnetic-dipole and the first-order quadrupole interactions; the spin system is submitted to the true isotropic chemical shift and the second-order quadrupole interactions only during these two periods. We treat in a unified way the Hahn echoes [including those involved in MQ-magic-angle spinning methodology] of the central transition representing the refocusing of single-quantum and MQ on-resonance coherences generated by the first pulse. During the pulses the crystal is assumed to be static and only the first-order quadrupole inteaction is considered; the echo amplitudes representing the refocusing of MQ coherences do not provide us with quantitative results on the spin population ratio. Only that associated with the refocusing of 1Q coherence gives quantitative results when the two pulse durations are short. Application to powders requires high-speed computer averaging of the echo amplitude versus one of the two pulse durations to extract the quadrupole parameters." @default.
W2125045319 created "2016-06-24" @default.
W2125045319 creator A5032563432 @default.
W2125045319 date "1997-04-01" @default.
W2125045319 modified "2023-10-10" @default.
W2125045319 title "Second-order quadrupole effects on Hahn echoes in fast-rotating solids at the magic angle" @default.
W2125045319 cites W1546211039 @default.
W2125045319 cites W1581416129 @default.
W2125045319 cites W1964094296 @default.
W2125045319 cites W1965367172 @default.
W2125045319 cites W1966164062 @default.
W2125045319 cites W1966406628 @default.
W2125045319 cites W1971084015 @default.
W2125045319 cites W1973011185 @default.
W2125045319 cites W1980007129 @default.
W2125045319 cites W1986719680 @default.
W2125045319 cites W1986887268 @default.
W2125045319 cites W1990093240 @default.
W2125045319 cites W1992679537 @default.
W2125045319 cites W1993751464 @default.
W2125045319 cites W1996722853 @default.
W2125045319 cites W1996959619 @default.
W2125045319 cites W1997387393 @default.
W2125045319 cites W2000792477 @default.
W2125045319 cites W2000813549 @default.
W2125045319 cites W2005422809 @default.
W2125045319 cites W2006612611 @default.
W2125045319 cites W2007291875 @default.
W2125045319 cites W2007602879 @default.
W2125045319 cites W2008386870 @default.
W2125045319 cites W2008791275 @default.
W2125045319 cites W2010180484 @default.
W2125045319 cites W2011671830 @default.
W2125045319 cites W2015770910 @default.
W2125045319 cites W2016080483 @default.
W2125045319 cites W2019777892 @default.
W2125045319 cites W2022139346 @default.
W2125045319 cites W2023555315 @default.
W2125045319 cites W2024259065 @default.
W2125045319 cites W2025941098 @default.
W2125045319 cites W2039081555 @default.
W2125045319 cites W2040071446 @default.
W2125045319 cites W2044573796 @default.
W2125045319 cites W2045235804 @default.
W2125045319 cites W2048242418 @default.
W2125045319 cites W2050748155 @default.
W2125045319 cites W2051894667 @default.
W2125045319 cites W2052407990 @default.
W2125045319 cites W2052760222 @default.
W2125045319 cites W2054376778 @default.
W2125045319 cites W2056163328 @default.
W2125045319 cites W2058889260 @default.
W2125045319 cites W2061018982 @default.
W2125045319 cites W2062079388 @default.
W2125045319 cites W2062877525 @default.
W2125045319 cites W2063459816 @default.
W2125045319 cites W2068822353 @default.
W2125045319 cites W2074536590 @default.
W2125045319 cites W2074893512 @default.
W2125045319 cites W2075620519 @default.
W2125045319 cites W2076672489 @default.
W2125045319 cites W2076961153 @default.
W2125045319 cites W2080340494 @default.
W2125045319 cites W2082954196 @default.
W2125045319 cites W2085129075 @default.
W2125045319 cites W2086900744 @default.
W2125045319 cites W2104117942 @default.
W2125045319 cites W2114840628 @default.
W2125045319 cites W2125510362 @default.
W2125045319 cites W2127763859 @default.
W2125045319 cites W2136068317 @default.
W2125045319 cites W2147313238 @default.
W2125045319 cites W2165937926 @default.
W2125045319 cites W4231666684 @default.
W2125045319 cites W4254297188 @default.
W2125045319 cites W430316297 @default.
W2125045319 cites W94487988 @default.
W2125045319 doi "https://doi.org/10.1103/physrevb.55.8406" @default.
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