Fourier transform pure nuclear quadrupole resonance by pulsed field cycling

We report the observation of Fourier transform pure NQR by pulsed field cycling. For deuterium, well resolved spectra are obtained with high sensitivity showing the low frequency nu0 lines and allowing assignments of quadrupole couplings and asymmetry parameters to inequivalent deuterons. The technique is ideally applicable to nuclei with low quadrupolar frequencies (e.g., 2D, 7Li, 11B, 27Al, 23Na, 14N) and makes possible high resolution structure determination in polycrystalline or disordered materials

Zero-Field Nuclear Magnetic Resonance

In polycrystalline samples, NMR "powder spectra" are broad and much structural information is lost as a result of the orientational disorder. In this Letter Fourier-transform NMR in zero magnetic field is described. With no preferred direction in space, all crystallites contribute equivalently and resolved dipolar splittings can be interpreted directly in terms of internuclear distances. This opens the possiblity of molecular structure determination without the need for single crystals or oriented samples

Optical detection of NMR J-spectra at zero magnetic field

Scalar couplings of the form J I_1 \cdot I_2 between nuclei impart valuable information about molecular structure to nuclear magnetic-resonance spectra. Here we demonstrate direct detection of J-spectra due to both heteronuclear and homonuclear J-coupling in a zero-field environment where the Zeeman interaction is completely absent. We show that characteristic functional groups exhibit distinct spectra with straightforward interpretation for chemical identification. Detection is performed with a microfabricated optical atomic magnetometer, providing high sensitivity to samples of microliter volumes. We obtain 0.1 Hz linewidths and measure scalar-coupling parameters with 4-mHz statistical uncertainty. We anticipate that the technique described here will provide a new modality for high-precision "J spectroscopy" using small samples on microchip devices for multiplexed screening, assaying, and sample identification in chemistry and biomedicine.Comment: 15 pages, 4 Figure

Central-City/Suburban Inequality and Metropolitan Political Fragmentation

To test the proposition that metropolitan governmental structure has social, economic, and racial consequences, the authors assume that the proliferation of local governments in a metropolitan area and the boundary constraints imposed on the central city have adverse effects, especially on the core city. Analyzing 97 large U.S. metropolitan statistical areas (MSAs), they found only limited support for this proposition. Of three measures of fragmentation, only two were of any consequence, one in the opposite direction predicted. The lower the central city’s share of MSA population, the higher the level of fiscal health for the inner city. Also, municipal boundaries have racial consequences.Yeshttps://us.sagepub.com/en-us/nam/manuscript-submission-guideline