Global ETD Search

11	NMR of group 2 element quadrupolar nuclei and some applications in materials science and biology Li, Xiaohua 12 1900 (has links) No description available.
12	Nuclear quadrupole double resonance Mailer, J. P. G. January 1977 (has links) The basic theories of Nuclear Quadrupole Resonance are outlined, together with some basic NMR theory and its application to double resonance techniques. An improved design of spectrometer using double resonance is presented, including a description of a new flow cryostat which can operate down to 4.2°K with low (250 cc/hour) consumption of liquid He. The whole apparatus may be used to detect NQR signals in solids over the frequency range 100 kHz-5 MHz. The theory of double resonance with spin mixing by continuous coupling (D R CC) is developed and illustrated by experiments performed on HCOOD, HDO and several nitrogen-containing compounds, including Imidazole. Further experiments were then carried out on samples dilute in deuterium, including the detection of NQR in formic acid (HCOOH) due to naturally abundant deuterium. Other experiments on proton-deuteron interactions in amide groups and in water molecules are also described and compared with results previously published on fully-deuterated amides and D<sub>2</sub>0 as a water of crystallisation in L-serine hydrate. The NQR spectrum of Lanthanum Nicotinate Dihydrate is obtained using F.M. techniques and related to its structure. The theory of Zeeman NQR in spin 3/2 nuclei is developed with reference to the double resonance technique, and the measured quadrupole coupling constants of <sup>23</sup>Na and <sup>2</sup>D in NaOH and some of its hydrates are discussed. Finally, some standard theories concerning proton relaxation times in solids at low temperatures (4°K-300°K) are outlined and related to some, measured relaxation times, illustrating their significance to the double resonance technique. The concluding chapter outlines a speculative proposal for a new spectrometer design. 539.7
13	The investigation of indium halides and graphite intercalation compounds using time-differential perturbed angular correlation gamma-ray spectrosocopy Dong, Sunny Ronald January 1988 (has links) This thesis discusses in general terms the theory and application of time-differential perturbed angular correlation gamma-ray spectroscopy (TDPAC) to the study of solid state physics. The technique yields valuable information on the electric field gradients experienced by radionuclides which have been substituted for nonradioactive isotopes or inserted as impurities into various inorganic compounds. The indium halides are examined in a series of experiments. The first applications of this technique to the study of graphite intercalation compounds are discussed. / Science, Faculty of / Physics and Astronomy, Department of / Graduate Indium halides Clathrate compounds Graphite
14	A study of the quadrupolar glass phase of D2 via proton NMR. Sokol, Paul E. January 1981 (has links) No description available. Physics Nuclear magnetic resonance Proton magnetic resonance Nuclear quadrupole resonance
15	Nuclear Quadrupole Resonance And Relaxation Studies In Chloropyridines And High Pressure Studies In Chlorates Amdjadi, Mohammed Hossein Ala 12 1900 (has links) (PDF) No description available. Nuclear Quadrupole Resonance (NQR) Chlorates - Spin-lattice Relaxation Spin-lattice Relaxation Chloropyridine Chlorates NQR Spin Lattice Relaxation Magnetism
16	Investigation of Halogen Bonding Interactions Through Solid-State Nuclear Magnetic Resonance and Nuclear Quadrupole Resonance Morin, Vincent 26 April 2021 (has links) Electrostatic interactions such as halogen bonding and pnictogen bonding interactions have gained a lot of interest in the field of crystal engineering and pharmaceutical science. In the first part of this thesis, we expand our knowledge on anion coordinated halogen bonded cocrystals by looking at a series of cocrystals made from 3-iodoethynyl pyridine and 3-iodoethynylbenzoic acid. We utilize the power of mechanochemistry to create the new cocrystals made with phosphonium salts and use multinuclear solid-state nuclear magnetic resonance spectroscopy and X-ray diffraction and characterize them. We found that mechanochemistry is a fast and powerful tool to explore and synthesize new halogen bonded cocrystals and ³¹P solid-state NMR is a rapid way to identify the formation of a cocrystal. In the second part, we look at the versatility of the pnictogen atom, specifically antimony, as a pnictogen bond donor and a halogen bond acceptor. We evaluate these electrostatic interactions with nuclear quadrupolar resonance and found that nuclear quadrupole resonance is a strong spectroscopy tool to probe these types of electrostatic interactions. Solid-state nuclear magnetic resonance Nuclear quadrupole resonance Electrostatic interactions Pnictogen bonding Halogen bonding X-ray diffraction
17	Array Analysis of Radio Frequency Interference Cancelation Requirements for a Land Mine Detection System Pratt, Devin Baker 16 November 2005 (has links) (PDF) Land mines are a major humanitarian problem with millions of active mines in place around the world. Since these mines can have little metal in them, novel detection techniques are needed. Nuclear Quadrupole Resonance (NQR) is one such technique. Unfortunately, NQR is highly succeptible to radio frequency interference (RFI). A significant contribution of this thesis is the development of a custom, experimental data acquisition system designed and built specifically for capturing RFI at frequencies significant to NQR land mine detection systems. Another major contribution is the development of data analysis techniques for determining the number of reference antennas required to effectively cancel out RFI at frequencies and in environments typical of an NQR land mine detection system. RFI radio frequency interference landmine NQR nuclear quadrupole resonance adaptive cancelation adaptive cancellation data acquisition eigen analysis Electrical and Computer Engineering
18	Résonance quadrupolaire de l'azote-14 : amélioration de la qualité spectrale et effet d'un champ magnétique statique de faible amplitude / Nitrogen-14 Nuclear Quadrupole Resonance (NQR) : improving the spectral quality and effect of a weak static magnetic field Aissani, Sarra 20 June 2014 (has links) La Résonance Quadrupolaire Nucléaire (RQN) est une technique spectroscopique appliquée à l’état solide et qui ne nécessite aucun champ magnétique statique contrairement à la Résonance Magnétique Nucléaire (RMN). Elle permet de détecter, les molécules qui contiennent un noyau quadrupolaire (tel que l'azote-14). La RQN de l’azote-14 suscite un intérêt particulier car elle s'avère utile dans la détection de drogues et d’explosifs, qui contiennent, pour la plupart, des molécules azotées. Cette thèse porte en premier lieu sur l’amélioration de la qualité spectrale en résonance quadrupolaire (RQN) de l’azote-14. Ainsi, nous nous sommes préoccupés des signaux transitoires (ringing) qui suivent l’impulsion radiofréquence (rf) et qui masquent en partie le signal RQN. Nous avons d’abord montré, par une étude théorique et expérimentale, que les mesures à basse puissance (< 3Watts) étaient possibles, ce qui nous a permis de diminuer l’amplitude du ringing. De plus, grâce à ce mode de fonctionnement (basse puissance), nous avons pu proposer un circuit original de commutation du facteur de qualité (Q-switch) basé sur un commutateur rf CMOS et qui a permis de diminuer la durée du ringing. La seconde partie traite de l’influence d’un champ magnétique statique faible amplitude et des divers paramètres expérimentaux en RQN de l’azote-14. Dans le cas où le tenseur de gradient de champ électrique est de symétrie axiale, nous avons observé des élargissements, voire des doublets Zeeman. En revanche, dans le cas général (absence de symetrie), nous avons mis en évidence la possibilité définir le tenseur de gradient de champ électrique à partir de la forme de raie d’une seule transition au lieu de deux transitions (sans champ magnétique statique). Ce dernier résultat pourrait permettre de diminuer de moitié le temps nécessaire à la caractérisation d’une nouvelle molécule azotée. / Nuclear quadrupole resonance (NQR) is a solid-state spectroscopic technique which doesn't require a static magnetic field in contrast to Nuclear Magnetic Resonance (NMR). It is used to detect molecules containing quadrupole nuclei (such as nitrogen-14). Nitrogen-14 quadrupole resonance is of particular interest because it is useful in the detection of drugs and explosives, which contain mostly of nitrogen molecules. In this thesis we have primarily focused on improving the spectral quality in nitrogen-14 quadrupole resonance (NQR) . Thus, we were concerned with the transient signals ( ringing ) following the radiofrequency (rf) pulse and which partly overwhelm the NQR signal. First, we demonstrated by theoretical and experimental study that low power measurements (< 3Watts ) were possible, allowing us to reduce the ringing amplitude. In addition, through this mode ( low power ), we have proposed an original quality factor switching circuit (Q -switch ) based on rf CMOS switch and which has reduced the ringing duration. The second part deals with the effect of a weak static magnetic field and various experimental parameters in nitrogen-14 quadrupole resonance. In the case of an axially symmetric electric field gradient tensor, we observed broadening or Zeeman doublets. By contrast, in the general case (no symmetry), we demonstrated the possibility to define the electric field gradient tensor from the line shape of a single transition instead of two transitions ( without static magnetic field ). This result reduces by half the time required for the characterization of a new nitrogen molecule. Résonance Quadrupolaire Nucléaire Azote-14 Champ magnétique statique Qualité spectrale Q-switch Radio-fréquence Nuclear quadrupole resonance Nitrogen-14 Static magnetic field Spectral quality Q-switch Radiofrequency 538.362
19	Optimalizace pokusného NQR spektrometru / Optimization of the experimental NQR spectrometer Segiňák, Ján January 2017 (has links) The thesis deals with the NQR spectroscopy, which is one of the modern non-destructive measurement and diagnostic methods for the characterization of various materials. It is using a quadrupole moment - a property of atomic nuclei of certain isotopes. A method of nuclear quadrupole resonance (NQR) is in principle very similar to nuclear magnetic resonance (NMR). Thesis in the theoretical part analyse the principles of NMR and NQR, describes the possible use of this method to detect for example explosives, drugs, and other chemicals. In the following chapters are analysed the key parameters of NQR spectrometer and the principle of the chosen measurement method. The practical part deals with the individual components of NQR spectrometer, the design of possible improvements and programming of the measuring sequence. In the final chapter are processed the measurements of the submitted samples.
20	NQR spektroskopie - návrh metod měření / NQR spectroscopy - design of measurement methods Procházka, Michal January 2013 (has links) Nuclear quadropole spectroscopy is a modern analytical method for detecting specific solid state materials, e.g. explosives, drugs etc. It uses phenomenon of atomic nucleus called nuclear quadrupole moment. NQR method is very similar to common nuclear magnetic resonance (NMR) that is why major principles are explained using NMR. The thesis deals with basic principle of NQR, its usage for explosives detection and also detection of other chemical compounds and many other useful applications. The thesis deals with specific circuit design, techniques for sufficient sensitivity, impedance matching and circuit isolation. Practical part consists of simulations as well as designs of a few impedance transformers, pi-networks, and coils. Also experimental probe was created. In the last part, NQR workplace was assembled and a few chemical compounds were detected. These were KClO3, NaClO3 and NaNO2 . Finally minimum detectable amount of potassium chlorate as the strongest signal of these was determined.

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