Relevant bibliographies by topics / Resonant; lattice

Academic literature on the topic 'Resonant; lattice'

Author: Grafiati
Published: 10 December 2022
Last updated: 28 January 2023

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Journal articles on the topic "Resonant; lattice"

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Han, Aoxue, Colm Dineen, Viktoriia E. Babicheva, and Jerome V. Moloney. "Second harmonic generation in metasurfaces with multipole resonant coupling." Nanophotonics 9, no. 11 (July 5, 2020): 3545–56. http://dx.doi.org/10.1515/nanoph-2020-0193.

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AbstractWe report on the numerical demonstration of enhanced second harmonic generation (SHG) originating from collective resonances in plasmonic nanoparticle arrays. The nonlinear optical response of the metal nanoparticles is modeled by employing a hydrodynamic nonlinear Drude model implemented into Finite-Difference Time-Domain (FDTD) simulations, and effective polarizabilities of nanoparticle multipoles in the lattice are analytically calculated at the fundamental wavelength by using a coupled dipole–quadrupole approximation. Excitation of narrow collective resonances in nanoparticle arrays with electric quadrupole (EQ) and magnetic dipole (MD) resonant coupling leads to strong linear resonance enhancement. In this work, we analyze SHG in the vicinity of the lattice resonance corresponding to different nanoparticle multipoles and explore SHG efficiency by varying the lattice periods. Coupling of electric quadrupole and magnetic dipole in the nanoparticle lattice indicates symmetry breaking and the possibility of enhanced SHG under these conditions. By varying the structure parameters, we can change the strength of electric dipole (ED), EQ, and MD polarizabilities, which can be used to control the linewidth and magnitude of SHG emission in plasmonic lattices. Engineering of lattice resonances and associated magnetic dipole resonant excitations can be used for spectrally narrow nonlinear response as the SHG can be enhanced and controlled by higher multipole excitations and their lattice resonances. We show that both ED and EQ–MD lattice coupling contribute to SHG, but the presence of strong EQ–MD coupling is important for spectrally narrow SHG and, in our structure, excitation of narrow higher-order multipole lattice resonances results in five times enhancement.
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Xiong, Lei, Hongwei Ding, Yuanfu Lu, and Guangyuan Li. "Active tuning of resonant lattice Kerker effect." Journal of Physics D: Applied Physics 55, no. 18 (February 10, 2022): 185106. http://dx.doi.org/10.1088/1361-6463/ac4ec5.

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Abstract The Kerker effect has been generalized in nanophotonics and meta-optics, and has recently been of great interest by relating it to various fascinating functionalities such as scattering management and perfect transmission, reflection or absorption. One of the most interesting generalizations is the resonant lattice Kerker effect in periodic nanostructures. However, its active tuning has not been explored yet. Here, we report, for the first time, the active control of the resonant lattice Kerker effect in periodic Ge2Se2Te5 nanodisks. By changing the crystalline fraction, we show that the electric dipole surface lattice resonance (ED-SLR), the magnetic dipole resonance (MDR), and thus the resonant lattice Kerker effect are all red-shifted. We therefore realize the transition from the ED-SLR to the resonant lattice Kerker effect, which enables multilevel tuning of reflection, transmission and absorption with modulation depths above 86%. Taking advantage of the MDR redshifts, we also observe broadband and multilevel tuning of transmissions with modulation depth of 87% over a broadband range of 588 nm. Our work establishes a new path for designing high-performance active nanophotonic devices.
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Briceño, Raúl A. "Resonances from lattice QCD." EPJ Web of Conferences 175 (2018): 01016. http://dx.doi.org/10.1051/epjconf/201817501016.

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The spectrum of hadron is mainly composed as shortly-lived states (resonance) that decay onto two or more hadrons. These resonances play an important role in a variety of phenomenologically significant processes. In this talk, I give an overview on the present status of a rigorous program for studying of resonances and their properties using lattice QCD. I explain the formalism needed for extracting resonant amplitudes from the finite-volume spectra. From these one can extract the masses and widths of resonances. I present some recent examples that illustrate the power of these ideas. I then explain similar formalism that allows for the determination of resonant electroweak amplitudes from finite-volume matrix elements. I use the recent calculation of the πγ* → ππ amplitude as an example illustrating the power of this formalism. From such amplitudes one can determine transition form factors of resonances. I close by reviewing on-going efforts to generalize these ideas to increasingly complex reactions and I then give a outlook of the field.
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LIU, M., L. H. WEN, L. SHE, A. X. CHEN, H. W. XIONG, and M. S. ZHAN. "SPLITTING AND TRAPPING OF BOSE-CONDENSED GASES IN MULTI-WELLS." Modern Physics Letters B 19, no. 06 (March 20, 2005): 303–12. http://dx.doi.org/10.1142/s0217984905008244.

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For the Bose-condensed gas in a one-dimensional optical lattice, several far-off resonant laser beams are used to split and trap the matter wavepacket after switching off both the magnetic trap and optical lattices. In the presence of two far-off resonant laser beams which are not symmetric about the centre of the matter wavepacket, we propose an experimental scheme to observe the collision between two side peaks after switching off the magnetic trap and optical lattice. We also discuss an experimental scheme to realize a coherent splitting and trapping of the matter wavepacket which has potential application in atom optics.
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Lian, Ziyang, Shan Jiang, Hongping Hu, Longxiang Dai, Xuedong Chen, and Wei Jiang. "An Enhanced Plane Wave Expansion Method to Solve Piezoelectric Phononic Crystal with Resonant Shunting Circuits." Shock and Vibration 2016 (2016): 1–12. http://dx.doi.org/10.1155/2016/4015363.

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An enhanced plane wave expansion (PWE) method is proposed to solve piezoelectric phononic crystal (PPC) connected with resonant shunting circuits (PPC-C), which is named as PWE-PPC-C. The resonant shunting circuits can not only bring about the locally resonant (LR) band gap for the PPC-C but also conveniently tune frequency and bandwidth of band gaps through adjusting circuit parameters. However, thus far, more than one-dimensional PPC-C has been studied just by Finite Element method. Compared with other methods, the PWE has great advantages in solving more than one-dimensional PC as well as various lattice types. Nevertheless, the conventional PWE cannot accurately solve coupling between the structure and resonant shunting circuits of the PPC-C since only taking one-way coupling from displacements to electrical parameters into consideration. A two-dimensional PPC-C model of orthorhombic lattice is established to demonstrate the whole solving process of PWE-PPC-C. The PWE-PPC-C method is validated by Transfer Matrix method as well as Finite Element method. The dependence of band gaps on circuit parameters has been investigated in detail by PWE-PPC-C. Its advantage in solving various lattice types is further illustrated by calculating the PPC-C of triangular and hexagonal lattices, respectively.
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Tran, Brian, Karl A. Fisher, Jenny Wang, Chuck Divin, and Gabriel Balensiefer. "Resonant ultrasound spectroscopy measurement and modeling of additively manufactured octet truss lattice cubes." Journal of the Acoustical Society of America 152, no. 4 (October 2022): A131. http://dx.doi.org/10.1121/10.0015784.

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Advancement of additive manufacturing technological readiness requires high throughput evaluation capabilities that can keep pace with the development of complex parts. Resonant ultrasound spectroscopy (RUS) is an acoustic technique that provides rapid holistic probing of a part by tracking fundamental mechanical resonance modes. In this work, the RUS responses of additively manufactured Ti-5553 octet truss lattice cubes were characterized using experimental measurements and three-dimensional finite element models. Varying percentages of missing struts were designed into the lattices as controlled defects and were verified using X-ray computed tomography. Experimental measurements of density and Young’s modulus were treated as input parameters in a homogenous anisotropic continuum model. The continuum model was compared with experimental RUS measurements, thus evaluating the potential for a simplified approximation of the octet truss lattice. [This work was supported by US DOE LLNL-LDRD 20-SI-001 and was performed under the auspices of the U.S. Department of Energy by Lawrence Livermore National Laboratory under Contract DE-AC52-07NA27344.]
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Titvinidze, I., M. Snoek, and W. Hofstetter. "Resonant superfluidity in an optical lattice." New Journal of Physics 12, no. 6 (June 28, 2010): 065030. http://dx.doi.org/10.1088/1367-2630/12/6/065030.

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Caciuffo, Roberto, and Gerard H. Lander. "X-ray synchrotron radiation studies of actinide materials." Journal of Synchrotron Radiation 28, no. 6 (November 1, 2021): 1692–708. http://dx.doi.org/10.1107/s1600577521009413.

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By reviewing a selection of X-ray diffraction (XRD), resonant X-ray scattering (RXS), X-ray magnetic circular dichroism (XMCD), resonant and non-resonant inelastic scattering (RIXS, NIXS), and dispersive inelastic scattering (IXS) experiments, the potential of synchrotron radiation techniques in studying lattice and electronic structure, hybridization effects, multipolar order and lattice dynamics in actinide materials is demonstrated.
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CHEN, Shi, Hang LIU, ChengHui WANG, and ZhongYu GUO. "Lattice-resonant phononic crystals with subwavelength gaps." SCIENTIA SINICA Physica, Mechanica & Astronomica 51, no. 11 (January 1, 2021): 114312. http://dx.doi.org/10.1360/sspma-2020-0495.

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Bolton, Daniel R., Raúl A. Briceño, and David J. Wilson. "Connecting physical resonant amplitudes and lattice QCD." Physics Letters B 757 (June 2016): 50–56. http://dx.doi.org/10.1016/j.physletb.2016.03.043.

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Dissertations / Theses on the topic "Resonant; lattice"

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Kozar, A. I. "Electromagnetic wave scattering by pyramid-shaped photonic crystal from resonant magnetodielectric spheres." Thesis, Eskisehir Technical University, 2021. https://openarchive.nure.ua/handle/document/18637.

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The solution of the problem of scattering electromagnetic waves with a discrete convex polyhedron - a pyramid of resonant magnetodielectric spheres based on a complex rhombic crystal lattice is presented.
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Kawai, Daisuke. "The study on quantum field theories from numerical approaches." Kyoto University, 2018. http://hdl.handle.net/2433/232236.

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Chakhmakhchyan, Levon. "Entangled states and coherent interaction in resonant media." Thesis, Dijon, 2014. http://www.theses.fr/2014DIJOS026/document.

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Nous analysons les caractéristiques d'intrication de quelques matériaux à l'état solide ainsi que des systèmes particuliers d'atomes et de champs en interaction. Une étude détaillée de la riche structure de phase des modèles de spins de basse dimension, décrivant le minéral naturel d'azurite et les composés de coordination à base de cuivre, a révélé des régimes à comportement d'intrication des plus robustes. En utilisant l'approche des systèmes dynamiques, la structure de phase de certains modèles classiques en réseaux hiérarchiques (récursifs) a aussi été étudiée et, pour la première fois, la transition entre régime chaotique et régime périodique au moyen de la bifurcation tangente a été détectée.Nous présentons une description détaillée des propriétés d'intrication de trois atomes piégés dans la limite dispersive. Une relativement simple accordabilité de la force atomique d'interaction de ce système et son étroite relation aux problèmes de frustration magnétique est démontrée. Les effets de propagation de pulses laser intenses dans un système atomique de type [lambda] avec des forces d'oscillateurs différentes sont analysés. Les résultats obtenus sont d'extrême importance dans des problèmes d'information quantique, comme par exemple, dans l'analyse du mécanisme de transfert de population dans des milieux ayant les propriétés définies ci-avant. Enfin, nous avons analysé les effets dissipatifs dans un protocole de distillation de l'intrication à variable continue récemment proposé. Malgré des contraintes additionnelles sur les paramètres du protocole, il est encore possible d'implémenter ce schéma de distillation évoqué ci-avant dans les technologies émergentes
The entanglement features of some solid state materials, as well as of particular systems of interacting atoms and fields are analyzed. A detailed investigation of the rich phase structure of low dimensional spin models, describing the natural mineral azurite and copper based coordination compounds, has revealed regimes with the most robust entanglement behavior. Using the dynamical system approach, the phase structure of some classical models on hierarchical (recursive) lattices has been also studied and, for the first time, the transition between chaotic and periodic regimes by means of tangent bifurcation has been detected.A detailed description of entanglement properties of three atoms trapped in a cavity within the dispersive limit is presented. A relatively simple tunability of the atomic interaction strength of the above system and its close relation to the problems of frustrated magnetism is shown. Furthermore, the propagation effects of two intense laser pulses in a medium of [lambda] atoms with unequal oscillator strengths are investigated. Obtained results are crucial in some problems of quantum information theory, as, e.g., in the analysis of population transfer mechanism in media possessing the above properties. Finally, the dissipation effects in a recently proposed compact continuous-variable entanglement distillation protocol have been analyzed. Despite additional constraints on the parameters of the protocol, the discussed entanglement distillation scheme in quantum memories is still possible to implement within emerging technologies
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Kallarackal, Jim. "The Higgs boson resonance from a chiral Higgs-Yukawa model on the lattice." Doctoral thesis, Humboldt-Universität zu Berlin, Mathematisch-Naturwissenschaftliche Fakultät I, 2011. http://dx.doi.org/10.18452/16332.

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Das Higgs-Teilchen ist essentiell für die Erzeugung von Massen für Fermionen und Eich- bosonen der schwachen Wechselwirkung. Ziel dieser Arbeit ist es, die Masse und die Zerfallsbreite des Higgs-Teilchens einzugrenzen. Grundlage für die Berechnung physikalischer Größen ist dabei das Pfadintegral, welches mittels Monte-Carlo Simulationen bestimmt wird. Ein polynomieller Hybrid-Monte- Carlo-Algorithmus berücksichtigt dabei alle dynamischen Freiheitsgrade der Fermionen. Die chirale Natur der Fermionen werden mit Hilfe des Neuberger- Overlap-Operators beschrieben. In dieser Arbeit wird das Standardmodell auf den Higgs-Yukawa-Sektor eingegrenzt, welcher keine Eichbosonen enthält und lediglich ein degeneriertes Quark-Doublet berücksichtigt. Anhand des Higgs-Teilchen-Propagators werden die Ergebnisse aus der Git- terstörungsrechnung bis zu einer Schleife mit denen aus der Monte-Carlo- Simulation verglichen. Für die untersuchten Parameter, stimmen die Ergeb- nisse aus der Störungstheorie mit den Monte-Carlo-Daten sehr gut überein. Ein Schwerpunkt dieser Arbeit ist die Analyse der Resonanzparameter des Higgs-Teilchens. Die Resonanzmasse und die Resonanzbreite werden bei schwachen als auch bei starken quartischen Kopplungen untersucht. Das Higgs-Teilchen erscheint nicht als asymptotisch stabiles Teilchen, sondern als Resonanz. In allen Fällen liegt die Resonanzbreite unter 10% der Resonanzmasse. Die Resonanzmasse wird sodann mit der Propagatormasse verglichen. Für alle betrachteten Kopplun- gen gibt es eine hervorragende Übereinstimmung beider Größen. Zuletzt gilt es, den Einfluss einer schweren vierten Generation von Quarks auf die obere und untere Massenschranke des Higgs-Teilchens zu untersuchen. Alle numerischen Resultate involvieren eine umfassende Analyse der Volu- menabhängigkeit und erfordern zwingend eine Extrapolation ins unendliche Volumen.
The Higgs boson is a central part of the electroweak theory and is crucial to generate masses for fermions and the weak gauge bosons. The goal of this work is to set limits on the mass and the decay width of the Higgs boson. The basis to compute the physical quantities is the path integral which is here evaluated by means of Monte Carlo simulations thus allowing for fully non perturbative calculations. A polynomial hybrid Monte Carlo algo- rithm is used to incorporate dynamical fermions. The chiral symmetry of the electroweak model is incorporated by using the Neuberger overlap operator. Here, the standard model is considered in the limit of a Higgs-Yukawa sector which does not contain the weak gauge bosons and only a degenerate doublet of top- and bottom quarks are incorporated. Results from lattice perturbation theory up to one loop of the Higgs boson propagator are compared with those obtained from Monte Carlo simulations. At all values of the investigated couplings, the perturbative results agree very well with the Monte Carlo data. A main focus of this work is the investigation of the resonance parameters of the Higgs boson. The resonance width and the resonance mass are investigated at weak and at large quartic couplings. The Higgs boson does not appear as an asymptotic stable state but as a resonance. In all considered cases the Higgs boson resonance width lies below 10% of the resonance mass. The obtained resonance mass is compared with the mass obtained from the Higgs boson propagator. The results agree perfectly at all values of the quartic coupling considered. Finally, the effect of a heavy fourth generation of fermions on the upper and lower Higgs boson mass bound is studied. All numerical results presented in this work involve extensive finite volume analysis and an extrapolation to infinite volume is inevitable.
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Holder, Jonathan Paul. "Resonant tunnelling spectroscopy of vertical GaAs/AlGaAs structures." Thesis, University of Exeter, 1999. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.312281.

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Dapore-Schwartz, Samuel. "An atomic beam magnetic resonance study of a superconductor's magnetic vortex lattice /." The Ohio State University, 1994. http://rave.ohiolink.edu/etdc/view?acc_num=osu1487856906257537.

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Alexandrou, Constantia, Luka Leskovec, Stefan Meinel, John Negele, Srijit Paul, Marcus Petschlies, Andrew Pochinsky, Gumaro Rendon, and Sergey Syritsyn. "P -wave π π scattering and the ρ resonance from lattice QCD." AMER PHYSICAL SOC, 2017. http://hdl.handle.net/10150/625756.

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We calculate the parameters describing elastic I = 1, P-wave pp scattering using lattice QCD with 2 + 1 flavors of clover fermions. Our calculation is performed with a pion mass of m(pi) approximate to 320 MeV and a lattice size of L approximate to 3.6 fm. We construct the two-point correlation matrices with both quark-antiquark and two-hadron interpolating fields using a combination of smeared forward, sequential and stochastic propagators. The spectra in all relevant irreducible representations for total momenta vertical bar(P) over right arrow vertical bar <= root 32 pi/L are extracted with two alternative methods: a variational analysis as well as multiexponential matrix fits. We perform an analysis using Luscher's formalism for the energies below the inelastic thresholds, and investigate several phase shift models, including possible nonresonant contributions. We find that our data are well described by the minimal Breit-Wigner form, with no statistically significant nonresonant component. In determining the rho resonance mass and coupling we compare two different approaches: fitting the individually extracted phase shifts versus fitting the t-matrix model directly to the energy spectrum. We find that both methods give consistent results, and at a pion mass of am(pi) = 0.18295(36)(stat) obtain g(rho pi pi) = 5.69(13)(stat)(16)(sys), am(rho) = 0.4609(16)(stat)(14)(sys), and am(rho)/am(N) = 0.7476(38)(stat)(23)(sys), where the first uncertainty is statistical and the second is the systematic uncertainty due to the choice of fit ranges.
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Jiang, Kefeng. "Investigation of Stochastic Resonance in Directed Propagation of Cold Atoms." Miami University / OhioLINK, 2021. http://rave.ohiolink.edu/etdc/view?acc_num=miami1626991662334714.

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Groves, Ronald William. "O17 spin-lattice relaxation solid state NMR studies of pure and doped ices." Columbus, Ohio : Ohio State University, 2002. http://rave.ohiolink.edu/etdc/view?acc%5Fnum=osu1021903674.

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Thesis (Ph. D.)--Ohio State University, 2002.
Title from first page of PDF file. Document formatted into pages; contains xx, 128 p.; also contains graphics. Includes abstract and vita. Co-advisors: Charles H. Pennington and James V. Coe, Dept. of Chemistry. Includes bibliographical references (p. 124-128).
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Hauglin, Harald. "Vortex lattice structure in single crystal YBCO studied with atomic beam magnetic resonance /." The Ohio State University, 1997. http://rave.ohiolink.edu/etdc/view?acc_num=osu1487943341526625.

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Books on the topic "Resonant; lattice"

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Dalmas, De Réotier Pierre, ed. Muon spin rotation, relaxation, and resonance: Applications to condensed matter. Oxford: Oxford University Press, 2010.

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Kutter, Christoph. Pulsed electron paramagnetic resonance in high magnetic fields using far infrared lasers. Konstanz: Hartung-Gorre, 1995.

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Strutz, Thomas. High magnetic field electron spin-lattice relaxation in a diluted magnetic semiconductor: CdMnTe. Konstanz: Hartung-Gorre Verlag, 1991.

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Latanowicz, Lidia. Procesy magnetycznej relaksacji jądrowej w obecności fluktuacji części radialnej oddziaływania dipolowego. Poznań: Wydawn. Nauk. Uniwersytetu im. Adama Mickiewicza w Poznaniu, 1988.

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Wu, Jie Qiang. Spin relaxation mechanisms controlling magnetic-field dependent radical pair recombination kinetics in nanoscopic reactors. Konstanz: Hartung-Gorre Verlag, 1993.

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Kutter, Christopher. Pulsed electron paramagnetic resonance in high magnetic fields using far infrared lasers: Dissertation zur Erlangung des akademischen Grades des Docktors der Naturwissenschaften an der Universität Konstanz Fakultät für Physik. Konstanz: Hartung-Gorre Verlag Konstanz, 1995.

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Lenk, R. Fluctuations, diffusion, and spin relaxation. Amsterdam: Elsevier, 1986.

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Spectroscopic techniques and hindered molecular motion. Boca Raton: CRC Press, 2012.

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Sankari, Hassan M. Application of the NMR spin-lattice relaxation method to the structure of pigment systems. 1994.

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Meintjes, Ernesta M. Impurity NMR study of heavily phosphorus-dopes silicon. 1998.

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Book chapters on the topic "Resonant; lattice"

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Yilmaz, Cetin, and Gregory M. Hulbert. "Dynamics of Locally Resonant and Inertially Amplified Lattice Materials." In Dynamics of Lattice Materials, 233–58. Chichester, UK: John Wiley & Sons, Ltd, 2017. http://dx.doi.org/10.1002/9781118729588.ch11.

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Nicoletti, Daniele, W. Hu, S. Kaiser, C. R. Hunt, I. Gierz, M. Le Tacon, T. Loew, B. Keimer, and A. Cavalleri. "Enhancement of Superconducting Coherence in YBa2Cu3O x by Resonant Lattice Excitation." In Springer Proceedings in Physics, 214–17. Cham: Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-13242-6_51.

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Wortmann, Gerhard, Kirsten Rupprecht, and Hubertus Giefers. "High-Pressure Studies of Magnetism and Lattice Dynamics by Nuclear Resonant Scattering of Synchrotron Radiation." In Mössbauer Spectroscopy, 103–17. Dordrecht: Springer Netherlands, 2003. http://dx.doi.org/10.1007/978-94-010-0045-1_10.

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Bertrand, Patrick. "Spectrum Intensity, Saturation, Spin-Lattice Relaxation." In Electron Paramagnetic Resonance Spectroscopy, 155–96. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-39663-3_5.

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Terhalle, Bernd. "Resonant Rabi Oscillations and Interband Transitions." In Controlling Light in Optically Induced Photonic Lattices, 35–59. Berlin, Heidelberg: Springer Berlin Heidelberg, 2011. http://dx.doi.org/10.1007/978-3-642-16647-1_4.

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Konotop, V. V. "Resonant Mode Interactions in Nonlinear Lattices." In Nonlinearity and Disorder: Theory and Applications, 115–30. Dordrecht: Springer Netherlands, 2001. http://dx.doi.org/10.1007/978-94-010-0542-5_10.

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Slichter, Charles P. "Magnetic Dipolar Broadening of Rigid Lattices." In Principles of Magnetic Resonance, 65–85. Berlin, Heidelberg: Springer Berlin Heidelberg, 1990. http://dx.doi.org/10.1007/978-3-662-09441-9_3.

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Slichter, Charles P. "Spin-Lattice Relaxation and Motional Narrowing of Resonance Lines." In Principles of Magnetic Resonance, 145–218. Berlin, Heidelberg: Springer Berlin Heidelberg, 1990. http://dx.doi.org/10.1007/978-3-662-09441-9_5.

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Bencini, Alessandro, and Dante Gatteschi. "Spectra in Extended Lattices." In Electron Paramagnetic Resonance of Exchange Coupled Systems, 135–66. Berlin, Heidelberg: Springer Berlin Heidelberg, 1990. http://dx.doi.org/10.1007/978-3-642-74599-7_6.

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Christy, R. F., A. M. Weinberg, and E. P. Wigner. "Resonance Escape Probability in Lattices." In Nuclear Energy, 475–86. Berlin, Heidelberg: Springer Berlin Heidelberg, 1992. http://dx.doi.org/10.1007/978-3-642-77425-6_31.

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Conference papers on the topic "Resonant; lattice"

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Razmjooei, Nasrin, and Robert Magnusson. "Properties of resonant photonic lattices at the lattice-particle Mie scattering wavelength." In Frontiers in Optics. Washington, D.C.: OSA, 2020. http://dx.doi.org/10.1364/fio.2020.jtu7d.1.

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Felbacq, Didier, and Emmanuel Kling. "Homogenization of a lattice of resonant scatterers." In SPIE NanoScience + Engineering, edited by Tom G. Mackay, Akhlesh Lakhtakia, Yi-Jun Jen, and Motofumi Suzuki. SPIE, 2013. http://dx.doi.org/10.1117/12.2029799.

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Hsu, Chi-Pin. "Resonant phase shifts from finite volume interactions." In The 30th International Symposium on Lattice Field Theory. Trieste, Italy: Sissa Medialab, 2012. http://dx.doi.org/10.22323/1.164.0267.

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Kungurtsev, P. V., A. A. Shevyrin, Ye A. Bondar, A. V. Kashkovsky, S. F. Gimelshein, and M. N. Shneider. "Simulation of non-resonant gas-optical lattice interaction." In INTERNATIONAL CONFERENCE ON THE METHODS OF AEROPHYSICAL RESEARCH (ICMAR 2016): Proceedings of the 18th International Conference on the Methods of Aerophysical Research. Author(s), 2016. http://dx.doi.org/10.1063/1.4964028.

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Saad Bin-Alam, M., M. Zahirul Alam, Ksenia Dolgaleva, and Robert W. Boyd. "Ultra-High-Q Multi-Resonant Metasurface using Plasmonic Lattice in Inhomogeneous Medium." In CLEO: QELS_Fundamental Science. Washington, D.C.: Optica Publishing Group, 2022. http://dx.doi.org/10.1364/cleo_qels.2022.fth2b.1.

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We demonstrate excitation of guided lattice resonances inside a semiconductor thin-film in a inhomogeneous metasurface enabled by a lossy plasmonic lattice reso-nanances with a record Q-factor value over 10,000.
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Nicoletti, D., W. Hu, S. Kaiser, C. R. Hunt, I. Gierz, M. Le Tacon, T. Loew, B. Keimer, and A. Cavalleri. "Enhancement of superconducting coherence in YBa2Cu3Ox by resonant lattice excitation." In International Conference on Ultrafast Phenomena. Washington, D.C.: OSA, 2014. http://dx.doi.org/10.1364/up.2014.07.mon.p1.47.

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Nightingale, Morgan D., Ryan Murphy, Robert Hewson, and Matthew J. Santer. "Validation of Tailored Resonant Behavior for Multiscale Optimized Lattice Structures." In AIAA SCITECH 2023 Forum. Reston, Virginia: American Institute of Aeronautics and Astronautics, 2023. http://dx.doi.org/10.2514/6.2023-2064.

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Weiblen, R. Joseph, Curtis R. Menyuk, Rafael R. Gattass, L. Brandon Shaw, and Jasbinder S. Sanghera. "Multiple nested elements in As2S3 anti-resonant negative-curvature tube-lattice fibers." In Specialty Optical Fibers. Washington, D.C.: OSA, 2016. http://dx.doi.org/10.1364/sof.2016.som3f.7.

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Thalmeier, Peter, and Alireza Akbari. "Resonant Spin Excitations in Unconventional Heavy Fermion Superconductors and Kondo Lattice Compounds." In 50th Karpacz Winter School of Theoretical Physics. WORLD SCIENTIFIC, 2015. http://dx.doi.org/10.1142/9789814704090_0002.

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Tsutsui, Kazuo, Natsuko Matsudo, Motoki Maeda, and So Watanabe. "Fluoride Resonant Tunneling Diodes using Lattice-Matched Buffer Layers on Si Substrates." In 2006 European Solid-State Device Research Conference. IEEE, 2006. http://dx.doi.org/10.1109/essder.2006.307732.

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Reports on the topic "Resonant; lattice"

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Ranjbar, Vahid. Spin resonance canceling lattice cell. Office of Scientific and Technical Information (OSTI), August 2022. http://dx.doi.org/10.2172/1881980.

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Parsa, Z., and S. Tepikian. Resonance analysis for standard Booster lattice with split tunes. Office of Scientific and Technical Information (OSTI), May 1986. http://dx.doi.org/10.2172/1150416.

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Yan, Yiton T. Dynamic Aperture Improvement of PEP-II Lattices Using Resonance Basis Lie Generators. Office of Scientific and Technical Information (OSTI), August 2003. http://dx.doi.org/10.2172/815265.

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Gu X., Y. Luo, and W. Fischer. Dynamic Aperature Calculation for 100 GeV Au-Au and 250GeV pp Lattices with Near Third Order Resonance Working Permit. Office of Scientific and Technical Information (OSTI), August 2010. http://dx.doi.org/10.2172/1061970.

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Gu, X., Y. Luo, and W. Fischer. Dynamic aperture calculation for 100 GeV Au-Au and 250 GeV pp lattices with near third order resonance working point. Office of Scientific and Technical Information (OSTI), August 2010. http://dx.doi.org/10.2172/988807.

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You might also be interested in the extended bibliographies on the topic 'Resonant; lattice' for particular source types:
Journal articles Dissertations / Theses
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