Relevant bibliographies by topics / Lattice spin

Academic literature on the topic 'Lattice spin'

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Published: 6 September 2023

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Journal articles on the topic "Lattice spin"

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Betts, D. D., S. Masui, N. Vats, and G. E. Stewart. "Improved finite-lattice method for estimating the zero-temperature properties of two-dimensional lattice models." Canadian Journal of Physics 74, no. 1-2 (January 1, 1996): 54–64. http://dx.doi.org/10.1139/p96-010.

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The well-known finite-lattice method for the calculation of the properties of quantum spin systems on a two-dimensional lattice at zero temperature was introduced in 1978. The method has now been greatly improved for the square lattice by including finite lattices based on parallelogram tiles as well as the familiar finite lattices based on square tiles. Dozens of these new finite lattices have been tested and graded using the [Formula: see text] ferromagnet. In the process new and improved estimates have been obtained for the XY model's ground-state energy per spin, ε0 = −0.549 36(30) and spontaneous magnetization per spin, m = 0.4349(10). Other properties such as near-neighbour, zero-temperature spin–spin correlations, which appear not to have been calculated previously, have been estimated to high precision. Applications of the improved finite-lattice method to other models can readily be carried out.
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Kawada, Takuya, Masashi Kawaguchi, Takumi Funato, Hiroshi Kohno, and Masamitsu Hayashi. "Acoustic spin Hall effect in strong spin-orbit metals." Science Advances 7, no. 2 (January 2021): eabd9697. http://dx.doi.org/10.1126/sciadv.abd9697.

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We report on the observation of the acoustic spin Hall effect that facilitates lattice motion–induced spin current via spin-orbit interaction (SOI). Under excitation of surface acoustic wave (SAW), we find that a spin current flows orthogonal to the SAW propagation in nonmagnetic metals (NMs). The acoustic spin Hall effect manifests itself in a field-dependent acoustic voltage in NM/ferromagnetic metal bilayers. The acoustic voltage takes a maximum when the NM layer thickness is close to its spin diffusion length, vanishes for NM layers with weak SOI, and increases linearly with the SAW frequency. To account for these results, we find that the spin current must scale with the SOI and the time derivative of the lattice displacement. These results, which imply the strong coupling of electron spins with rotating lattices via the SOI, show the potential of lattice dynamics to supply spin current in strong spin-orbit metals.
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Betts, D. D., H. Q. Lin, and J. S. Flynn. "Improved finite-lattice estimates of the properties of two quantum spin models on the infinite square lattice." Canadian Journal of Physics 77, no. 5 (September 1, 1999): 353–69. http://dx.doi.org/10.1139/p99-041.

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This paper describes an improvement in the method of exact diagonalization of Hamiltonians of quantum spin models on finite square lattices and the statistical analysis of the data so obtained to estimate the physical properties of the models on the infinite square lattices at zero temperature. The geometry and topology of finite square lattices are described. The models studied are the spin one-half XY and Heisenberg antiferromagnets using 28 finite square lattices with up to 32 vertices. Our estimates of the energy and magnetization on each model on the infinite lattice at zero temperature compare very well with recent estimates using quantum Monte Carlo, series expansion, and spin wave estimates. Estimates of spin wave velocity and transverse susceptibilities are more scattered.PACS No.: 75.10J
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De, Anulekha, Sucheta Mondal, Sourav Sahoo, Saswati Barman, Yoshichika Otani, Rajib Kumar Mitra, and Anjan Barman. "Field-controlled ultrafast magnetization dynamics in two-dimensional nanoscale ferromagnetic antidot arrays." Beilstein Journal of Nanotechnology 9 (April 9, 2018): 1123–34. http://dx.doi.org/10.3762/bjnano.9.104.

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Ferromagnetic antidot arrays have emerged as a system of tremendous interest due to their interesting spin configuration and dynamics as well as their potential applications in magnetic storage, memory, logic, communications and sensing devices. Here, we report experimental and numerical investigation of ultrafast magnetization dynamics in a new type of antidot lattice in the form of triangular-shaped Ni80Fe20 antidots arranged in a hexagonal array. Time-resolved magneto-optical Kerr effect and micromagnetic simulations have been exploited to study the magnetization precession and spin-wave modes of the antidot lattice with varying lattice constant and in-plane orientation of the bias-magnetic field. A remarkable variation in the spin-wave modes with the orientation of in-plane bias magnetic field is found to be associated with the conversion of extended spin-wave modes to quantized ones and vice versa. The lattice constant also influences this variation in spin-wave spectra and spin-wave mode profiles. These observations are important for potential applications of the antidot lattices with triangular holes in future magnonic and spintronic devices.
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Tran, Tien Duy, Yibo Wang, Alex Glaetzle, Shannon Whitlock, Andrei Sidorov, and Peter Hannaford. "Magnetic Lattices for Ultracold Atoms." Communications in Physics 29, no. 2 (May 14, 2019): 97. http://dx.doi.org/10.15625/0868-3166/29/2/13678.

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This article reviews the development in our laboratory of magnetic lattices comprising periodic arrays of magnetic microtraps created by patterned magnetic films to trap periodic arrays of ultracold atoms. Recent achievements include the realisation of multiple Bose-Einstein condensates in a 10 \(\mu\)m-period one-dimensional magnetic lattice; the fabrication of sub-micron-period square and triangular magnetic lattice structures suitable for quantum tunnelling experiments; the trapping of ultracold atoms in a sub-micron-period triangular magnetic lattice; and a proposal to use long-range interacting Rydberg atoms to achieve spin-spin interactions between sites in a large-spacing magnetic lattice.
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Betts, D. D., and S. Miyashita. "Zero-temperature properties of quantum spin systems in two dimensions." Canadian Journal of Physics 68, no. 12 (December 1, 1990): 1410–18. http://dx.doi.org/10.1139/p90-202.

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We consider the zero-temperature properties of four different spin 1/2 models on two-dimensional lattices: the XY ferromagnet, the XY antiferromagnet, the Heisenberg antiferromagnet, and the Dzyaloshinsky–Moriya models. Most of this article is a review of previously published work, but a few previously unpublished results are included. The relation between three of the models on bipartite lattices is described. The properties of the XY ferromagnet in two dimensions, especially those derived from extrapolation of finite lattice results, are reviewed. A numerical factor by which spin-wave and finite-lattice estimates of the long-range order parameter differ is discussed. For frustrated models on the triangular lattice the possibility of a chirality phase transition instead of, or in addition to, a magnetic phase transition is considered.
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Betts, D. D., K. S. Lee, and H. Q. Lin. "Exact diagonalization of the S = 1/2 XY ferromagnet on a new set of finite triangular lattices at T = 0." Canadian Journal of Physics 81, no. 3 (March 1, 2003): 555–71. http://dx.doi.org/10.1139/p03-036.

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We have obtained 85 finite triangular lattices from 7 to 36 vertices. We display two very good finite lattices – 21a (well-known) and 22a (previously unknown). Over the past decade several physicists have used exact diagonalization on five tripartite triangular lattices from N = 9 to 36 to study the Heisenberg and XY antiferromagnet on the infinite triangular lattice. Nine more tripartite triangular lattices are available as shown below in the text. Our exact diagonalization of the S = 1/2 XY ferromagnetic energies and magnetization leads, by scalar equations, to the properties on the infinite lattice. We found that all but 10 of the 85 are good lattices. Finally, we obtained spin–spin correlations of two kinds, xx and zz. PACS Nos.: 75.10Jm, 05.05+q
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Orendáčová, Alžbeta, Róbert Tarasenko, Vladimír Tkáč, Erik Čižmár, Martin Orendáč, and Alexander Feher. "Interplay of Spin and Spatial Anisotropy in Low-Dimensional Quantum Magnets with Spin 1/2." Crystals 9, no. 1 (December 21, 2018): 6. http://dx.doi.org/10.3390/cryst9010006.

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Quantum Heisenberg chain and square lattices are important paradigms of a low-dimensional magnetism. Their ground states are determined by the strength of quantum fluctuations. Correspondingly, the ground state of a rectangular lattice interpolates between the spin liquid and the ordered collinear Néel state with the partially reduced order parameter. The diversity of additional exchange interactions offers variety of quantum models derived from the aforementioned paradigms. Besides the spatial anisotropy of the exchange coupling, controlling the lattice dimensionality and ground-state properties, the spin anisotropy (intrinsic or induced by the magnetic field) represents another important effect disturbing a rotational symmetry of the spin system. The S = 1/2 easy-axis and easy-plane XXZ models on the square lattice even for extremely weak spin anisotropies undergo Heisenberg-Ising and Heisenberg-XY crossovers, respectively, acting as precursors to the onset of the finite-temperature phase transitions within the two-dimensional Ising universality class (for the easy axis anisotropy) and a topological Berezinskii–Kosterlitz–Thouless phase transition (for the easy-plane anisotropy). Experimental realizations of the S = 1/2 two-dimensional XXZ models in bulk quantum magnets appeared only recently. Partial solutions of the problems associated with their experimental identifications are discussed and some possibilities of future investigations in quantum magnets on the square and rectangular lattice are outlined.
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Shishanin, A. O. "Phase transition temperature in some lattice models." Seriya 3: Fizika, Astronomiya, no. 2_2023 (June 2, 2023): 1–4. http://dx.doi.org/10.55959/msu0579-9392.78.2320101.

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A method for calculating the phase transition temperature using only one cell is considered. This method has been tested for various lattice models: Ising model on triangular, hexagonal and tetrahedral lattices, three-position Potts model on a square lattice. In particular, exact reply is reproduced in the Ising model for triangular lattice. Also, this method was used to analyze some multi-spin models.
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Pérez, A., H. Ottavi, and P. Saint-Grégoire. "Lattice spin model AB1B2." Computational Materials Science 18, no. 2 (August 2000): 167–76. http://dx.doi.org/10.1016/s0927-0256(00)00002-1.

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Dissertations / Theses on the topic "Lattice spin"

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Berge, Siri Alva. "Phase diagrams of finite spin chains withcoupled spin and lattice vibrations." Thesis, Uppsala universitet, Materialteori, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-448790.

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The spin-lattice coupling is due to itinerant electrons interacting with both spins of ions and phonons, mediating a coupling between magnetic spin moments andlattice vibrations. In this project, the coupling is studied systematically for finitequantum spin chains of size 2 – 10. The coupling is included in a Hamiltonian model with the Heisenberg exchange interaction and an external magnetic fieldresulting in an eigenvalue problem which is solved numerically to find phase diagrams of the magnetic moment of the system depending on an external magneticfield and the lattice vibration parameter. The eigenvalue problem is also solved analytically for the 2-ion chain, dimer, and 3-ion chain, trimer, systems. Based on these phase diagrams two propositions are made: the effect of the coupling is larger than an external magnetic field and the behavior of the coupling converges to a common phase diagram for larger spin chains.
Kopplade spinn- och vibrationsfrihetersgrader beror på kringvandrande elektroner som växelverkar med både spin och fononer, vilket förmedlar en koppling mellan magnetiskt spinmoment och gittervibrationer. I detta projekt studeras denna koppling systematiskt för ändliga spin-kedjor av 2–10 joner. Systemet beskrivs av en Hamiltonian med Heisenberg modellen som beskriver spin-spin kopplingen samt ett externt magnetiskt fält. Detta egenvärdesproblem löses analytiskt för dimer- och trimersystem samt numeriskt för längre kedjor. Lösningarna används för att ta fram fasdiagram av de magnetiska momenten av kedjorna beroende på externt magnetfält och spin- och vibrationsfrihetsgradsparametern  . Baserat på dessa fasdiagram, framförs två propositioner: kopplingens effekt är större än ett externtmagnetfält och kopplingens beteende konvergerar till ett enhetligt fasdiagram för större spinnkedjor.

Subject reader/ämnesgranskare: Anders Bergman

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Benassi, Costanza. "On classical and quantum lattice spin systems." Thesis, University of Warwick, 2018. http://wrap.warwick.ac.uk/108566/.

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This thesis focuses on some results about quantum and classical lattice spin systems. We study a wide class of two-dimensional quantum models which enjoy a U(1) symmetry. Using the so called complex rotation method we show that the decay of the relevant correlation functions is at least algebraically fast. We provide some examples of relevant models which belong to our class. We review some results present in the literature concerning the so called GriffthsGinibre inequalities for the classical XY model and propose a generalisation to its quantum counterpart. Correlation inequalities indeed hold for the quantum XY model with spin- 1 2 and for the ground state of the spin-1 system. We propose some applications of these results, namely that the infinite volume limit of some correlation functions exists and that it is possible to compare quenched and annealed averages for a quantum XY model with random couplings. We investigate loop representations for O(n) classical spin systems. We propose a generalised random current representation and show its relationship with the Brydges-Fröhlich-Spencer one. We review some conjectures regarding the expected behaviour of these loop models { namely that macroscopic loops appear and their lengths are distributed according to a Poisson-Dirichlet distribution. We propose some arguments in favour of these conjectures for O(n) loop models, using a mix of exact results and heuristic considerations. In order to do so we de ne a stochastic process which is an effective split-merge process for macroscopic loops and we reformulate some correlation functions for the O(2) spin system in terms of loop properties.
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Tarnawski, Maciej. "Asymptotic phase diagrams for lattice spin systems." Diss., Virginia Polytechnic Institute and State University, 1985. http://hdl.handle.net/10919/53610.

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We present a method of constructing the phase diagram at low temperatures, using the low temperature expansions. We consider spin Iattice systems described by a Hamiltonian with a d-dimensional perturbation space. We prove that there is a one-one correspondence between subsets of the phase diagram and extremal elements of some family of convex sets. We also solve a linear programming problem of the phase diagram for a set of affine functionals.
Ph. D.
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Collins, Alexander Rory Physics Faculty of Science UNSW. "Quantum lattice models." Publisher:University of New South Wales. Physics, 2008. http://handle.unsw.edu.au/1959.4/43408.

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This thesis presents studies of the low energy properties of nseveral frustrated spin-1/2 Heisenberg antiferromagnets using various analytic and computational methods. The models studied include the union jack model, the alternating Heisenberg chain, the Heisenberg bilayer model, and the spin-Peierls model. The union jack model is a Heisenberg antiferromagnetic spin model with frustration, and is analyzed using spin-wave theory. For small values of the frustrating coupling $\alpha$, the system is N{\' e}el ordered, while for large $\alpha$ the frustration is found to induce a canted phase. Spin wave theory with second order corrections finds the critical coupling at $\alpha \simeq 0.645$,which agrees quantitatively with series expansion results. No intermediate spin-liquid phase is found to exist between the two phases. The alternating Heisenberg chain is studied using an alternative triplet-wave expansion formalism for dimerized spin systems, modification of the ??bond operator?? formalism of Sachdev and Bhatt. Projection operators are used to confine the system to the physical subspace, rather than constraint equations. Comparisons are made with the results of dimer series expansions and exact diagonalization. The S=1/2 Heisenberg bilayer spin model at zero temperature is studied in the dimerized phase using analytic triplet-wave expansions and dimer series expansions. The occurrence of two-triplon bound states in the S=0 and S=1 channels, and antibound states in the S=2 channel, is predicted with triplet-wave theory and confirmed by series expansions. All bound states are found to vanish at or before the critical coupling separating the dimerized phase from the N{\' e}el phase. The critical behavior of the total and single-particle static transverse structure factors is also studied by series expansion methods and found to conform with theoretical expectations. The Heisenberg spin-Peierls model with dispersive, gapless phonons is studied with Density Matrix Renormalization Group methods. We investigate the zero temperature properties of the model using the crossover method. The calculations were found to converge poorly and no conclusive results could be found using this method. An analysis of the convergence problems and the discovery of an anomalous triplet ground state is presented in this chapter.
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Berge, Siri Alva. "Phase Diagrams of Finite Spin Chains with Coupled Spin and Lattice Vibrations." Thesis, Uppsala universitet, Materialteori, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:uu:diva-449117.

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The spin-lattice coupling is due to itinerant electrons interacting with both spins of ions and phonons, mediating a coupling between magnetic spin moments and lattice vibrations. In this project, the coupling is studied systematically for finite quantum spin chains of size 2 – 10. The coupling is included in a Hamiltonian model with the Heisenberg exchange interaction and an external magnetic field resulting in an eigenvalue problem which is solved numerically to find phase diagrams of the magnetic moment of the system depending on an external magneticfield and the lattice vibration parameter. The eigenvalue problem is also solved analytically for the 2-ion chain, dimer, and 3-ion chain, trimer, systems. Based on these phase diagrams two propositions are made: the effect of the coupling is larger than an external magnetic field and the behavior of the coupling converges to a common phase diagram for larger spin chains.
Kopplade spinn- och vibrationsfrihetersgrader beror på kringvandrande elektroner som växelverkar med både spin och fononer, vilket förmedlar en koppling mellan magnetiskt spinmoment och gittervibrationer. I detta projekt studeras denna koppling systematiskt för ändliga spin-kedjor av 2–10 joner. Systemet beskrivs av en Hamiltonian med Heisenberg modellen som beskriver spin-spin kopplingen samt ett externt magnetiskt fält. Detta egenvärdesproblem löses analytiskt för dimer- och trimersystem samt numeriskt för längre kedjor. Lösningarna används för att ta fram fasdiagram av de magnetiska momenten av kedjorna beroende på externt magnetfält och spin- och vibrationsfrihetsgradsparametern. Baserat på dessa fasdiagram, framförs två propositioner: kopplingens effekt är större än ett externt magnetfält och kopplingens beteende konvergerar till ett enhetligt fasdiagram för större spinnkedjor.

Subject reader/ämnesgranskare: Anders Bergman

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Aßmann, Matthias [Verfasser]. "Atomistic simulation of spin-lattice dynamics / Matthias Aßmann." Konstanz : Bibliothek der Universität Konstanz, 2018. http://d-nb.info/1173616292/34.

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Harper, R. E. "Anomalous nuclear spin-lattice relaxation peaks in InSb." Thesis, University of St Andrews, 1986. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.373036.

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Benassi, Costanza. "Su(3) lattice gauge theories and spin chains." Master's thesis, Alma Mater Studiorum - Università di Bologna, 2014. http://amslaurea.unibo.it/7171/.

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I modelli su reticolo con simmetrie SU(n) sono attualmente oggetto di studio sia dal punto di vista sperimentale, sia dal punto di vista teorico; particolare impulso alla ricerca in questo campo è stato dato dai recenti sviluppi in campo sperimentale per quanto riguarda la tecnica dell’intrappolamento di atomi ultrafreddi in un reticolo ottico. In questa tesi viene studiata, sia con tecniche analitiche sia con simulazioni numeriche, la generalizzazione del modello di Heisenberg su reticolo monodimensionale a simmetria SU(3). In particolare, viene proposto un mapping tra il modello di Heisenberg SU(3) e l’Hamiltoniana con simmetria SU(2) bilineare-biquadratica con spin 1. Vengono inoltre presentati nuovi risultati numerici ottenuti con l’algoritmo DMRG che confermano le previsioni teoriche in letteratura sul modello in esame. Infine è proposto un approccio per la formulazione della funzione di partizione dell’Hamiltoniana bilineare-biquadratica a spin-1 servendosi degli stati coerenti per SU(3).
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Magnusson, Einar B. "High-spin impurities and surface acoustic waves in piezoelectric crystals for spin-lattice coupling." Thesis, University of Oxford, 2016. https://ora.ox.ac.uk/objects/uuid:09d23fb2-f501-4be2-a25f-b69ada0ce5b1.

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In this thesis we investigate various aspects of SAW devices and strain sensitive spin species in ZnO and LiNbO3 for coupling surface acoustic waves to spin ensembles. Firstly, we performed a series of ESR experiments exploring the potential of Fe3+ impurities in ZnO for spin-lattice coupling. This spin system has already been identified as a high potential quantum technology component due to its long coherence time. We show that the system also has good properties for spin-lattice coupling experiments, with a strain-coupling parameter G33 = 280 ± 5GHz/strain, which is about 16 times larger than the largest reported for NV centres in diamond. We found that the LEFE effect as well as the spin Hamiltonian parameter D have a linear temperature dependence. As the relative change in each coincide, this strongly supports the notion that the modification of D by an electric field is a multiplicative effect rather than an additive one, D = D0(1 + κΕ). The LEFE coefficient we measured is several times larger for Fe3+:ZnO than for Mn2+:ZnO. Secondly, we have fabricated and characterised SAW devices on bulk ZnO crystals and Fe doped lithium niobate. We found that the nominally pure ZnO was conductive at room temperature due to n-type intrinsic doping, and electrical losses inhibited any transmission through a SAW delay line above T = 200K. The one-port resonator measured down to milli-Kelvin temperatures showed excellent quality factors of up to Q ≃ 1.5 x 105 in its superconducting state. Finally, we performed a surface acoustic wave spin resonance (SAWSR) experiment using a one-port SAW resonator fabricated on Fe2+:LN. We observed a clear signal at T ≃ 25 K, at a field near the expected one for a Δms = 2 transition between the |−1⟩ and |+1⟩ states. We concluded it to be a transition induced by acoustic coupling since the signal intensity did not tend to zero when the magnetic field was parallel to the crystal anisotropy axis. Furthermore, this tells us that the coupling is due to a modulation of the E zero-field splitting parameter rather than D. We investigated the dependence on microwave power and found the saturation limit. We performed a measurement of Fe3+:LN as well to reassure ourselves that the resonance is not magnetically excited by the field around the IDT.
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Turner, Helen J. "Proton NMR spin lattice relaxation studies of solid polyethylenes." Thesis, University of Nottingham, 1997. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.243420.

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Books on the topic "Lattice spin"

1

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

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W, E. Heraeus Seminar (165th 1996 Bad Honnef Germany). Theory of spin lattices and lattice gauge models: Proceedings of the 165th WE-Heraeus-Seminar held at the Physikzentrum, Bad Honnef, Germany, 14-16 October 1996. Berlin: Springer-Verlag, 1997.

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

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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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Petrovich, Zakharcheni͡a︡ Boris, and Meier F. 1943-, eds. Opticheskai͡a︡ orientat͡s︡ii͡a︡. Leningrad: "Nauka," Leningradskoe otd-nie, 1989.

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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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Lena, Mäler, ed. Nuclear spin relaxation in liquids: Theory, experiments, and applications. Boca Raton, FL: Taylor&Francis, 2006.

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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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Suchański, Wiesław. Analiza wewnątrzmolekularnych ruchów stochastycznych: Badania za pomocą magnetycznej relaksacji jądrowej ¹³C. Poznań: Wydawn. Nauk. Uniwersytetu im. Adama Mickiewicza w Poznaniu, 1993.

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Ram, Kossowsky, North Atlantic Treaty Organization. Scientific Affairs Division., and NATO Advanced Study Institute on Physics and Materials Science of Vortex States, Flux Pinning and Dynamics (1998 : Kusadasi, Turkey), eds. Physics and materials science of vortex states, flux pinning and dynamics. Dordrecht: Kluwer, 1999.

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Book chapters on the topic "Lattice spin"

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Kimmich, Rainer. "Spin-Lattice Relaxation." In NMR, 102–15. Berlin, Heidelberg: Springer Berlin Heidelberg, 1997. http://dx.doi.org/10.1007/978-3-642-60582-6_12.

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Ma, Pui-Wai, and S. L. Dudarev. "Atomistic Spin-Lattice Dynamics." In Handbook of Materials Modeling, 1017–35. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-319-44677-6_97.

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Ma, Pui-Wai, and S. L. Dudarev. "Atomistic Spin-Lattice Dynamics." In Handbook of Materials Modeling, 1–19. Cham: Springer International Publishing, 2018. http://dx.doi.org/10.1007/978-3-319-42913-7_97-1.

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Knolle, Johannes. "Kitaev’s Honeycomb Lattice Model." In Dynamics of a Quantum Spin Liquid, 23–36. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-23953-8_2.

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Liburg, M., and V. Matafonov. "A Remark on Nuclear Spin-Lattice Relaxation." In High Energy Spin Physics, 376–77. Berlin, Heidelberg: Springer Berlin Heidelberg, 1991. http://dx.doi.org/10.1007/978-3-642-76661-9_74.

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Tchernyshyov, Oleg, and Gia-Wei Chern. "Spin-Lattice Coupling in Frustrated Antiferromagnets." In Introduction to Frustrated Magnetism, 269–91. Berlin, Heidelberg: Springer Berlin Heidelberg, 2010. http://dx.doi.org/10.1007/978-3-642-10589-0_11.

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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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Ishizuka, Hiroaki. "Spin-Cluster State in a Pyrochlore Lattice." In Magnetism and Transport Phenomena in Spin-Charge Coupled Systems on Frustrated Lattices, 103–14. Tokyo: Springer Japan, 2015. http://dx.doi.org/10.1007/978-4-431-55663-3_8.

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Fye, R. M. "Simulating Spin-Fermion Systems: Kondo Lattice Results." In Springer Proceedings in Physics, 115–30. Berlin, Heidelberg: Springer Berlin Heidelberg, 1993. http://dx.doi.org/10.1007/978-3-642-84878-0_10.

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Kwaśniewski, A. K. "Generalized Clifford Algebras and Spin Lattice Systems." In Clifford Algebras and Their Applications in Mathematical Physics, 549–54. Dordrecht: Springer Netherlands, 1986. http://dx.doi.org/10.1007/978-94-009-4728-3_47.

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Conference papers on the topic "Lattice spin"

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Orginos, Konstantinos. "Spin on the Lattice." In SPIN 2002: 15th International Spin Physics Symposium and Workshop on Polarized Electron Sources and Polarimeters. AIP, 2003. http://dx.doi.org/10.1063/1.1607128.

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Lee, Frank, and Andrei Alexandru. "Spin Polarizabilties on the Lattice." In XXIX International Symposium on Lattice Field Theory. Trieste, Italy: Sissa Medialab, 2012. http://dx.doi.org/10.22323/1.139.0317.

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MEYER, HARVEY B. "HIGH SPIN GLUEBALLS FROM THE LATTICE." In Proceedings of the SEWM2002 Meeting. WORLD SCIENTIFIC, 2003. http://dx.doi.org/10.1142/9789812704498_0035.

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NEGELE, J. W. "LATTICE QCD AND NUCLEON SPIN STRUCTURE." In Proceedings of the 5th International Workshop on Chiral Dynamics, Theory and Experiment. WORLD SCIENTIFIC, 2007. http://dx.doi.org/10.1142/9789812790804_0010.

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MICHALSKI, MIłOSZ. "DETECTING ENTANGLEMENT IN SPIN LATTICE MODELS." In From Quantum Information to Bio-Informatics. WORLD SCIENTIFIC, 2010. http://dx.doi.org/10.1142/9789814304061_0019.

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Hadjiyiannakou, Kyriakos, Constantia Alexandrou, Martha Constantinou, Karl Jansen, Christos Kallidonis, Giannis Koutsou, and Alejandro Vaquero. "Nucleon spin structure from lattice QCD." In XXVI International Workshop on Deep-Inelastic Scattering and Related Subjects. Trieste, Italy: Sissa Medialab, 2018. http://dx.doi.org/10.22323/1.316.0148.

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Yang, Yi-Bo. "A Lattice Story of Proton Spin." In The 36th Annual International Symposium on Lattice Field Theory. Trieste, Italy: Sissa Medialab, 2019. http://dx.doi.org/10.22323/1.334.0017.

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MARTINS, M. J. "LORENTZ LATTICE GASES AND SPIN CHAINS." In Proceedings of the APCTP Winter School. WORLD SCIENTIFIC, 2001. http://dx.doi.org/10.1142/9789812799739_0006.

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Bowlan, P., S. A. Trugman, E. D. Bauer, X. Wang, N. J. Hur, S. W. Cheong, A. J. Taylor, D. A. Yarotski, and R. P. Prasankumar. "Spin-lattice relaxation in antiferromagnetic manganites." In International Conference on Ultrafast Phenomena. Washington, D.C.: OSA, 2016. http://dx.doi.org/10.1364/up.2016.uth3a.6.

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Alexandrou, Constantia. "Hadron Spin Structure from Lattice QCD." In Proceedings of the 24th International Spin Symposium (SPIN2021). Journal of the Physical Society of Japan, 2022. http://dx.doi.org/10.7566/jpscp.37.011013.

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Reports on the topic "Lattice spin"

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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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Lemke, N. D. An Optical Lattice Clock with Spin 1/2 Atoms. Fort Belvoir, VA: Defense Technical Information Center, January 2012. http://dx.doi.org/10.21236/ad1007299.

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Bulaevskii, L. N., P. C. Hammel, and V. M. Vinokur. Observation of the vortex lattice melting by NMR spin-lattice relaxation in the mixed state. Office of Scientific and Technical Information (OSTI), January 1994. http://dx.doi.org/10.2172/198701.

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Doughty, D. A., and Liviu Tomutsa. Investigation of wettability by NMR microscopy and spin-lattice relaxation. Office of Scientific and Technical Information (OSTI), November 1993. http://dx.doi.org/10.2172/10108859.

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Xi, Xiaoxing. Enhancement of spin-lattice coupling in nanoengineered oxide films and heterostructures by laser MBE. Office of Scientific and Technical Information (OSTI), June 2017. http://dx.doi.org/10.2172/1362040.

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Meot F., L. Ahrens, J. Glenn, H. Huang, A. Luccio, W. W. MacKay, T. Roser, and N. Tsoupas. Spin tracking simulations in AGS based on ray-tracing methods - bare lattice, no snakes -. Office of Scientific and Technical Information (OSTI), July 2012. http://dx.doi.org/10.2172/1061999.

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Meot, F., L. Ahrens, J. Gleen, H. Huang, A. Luccio, W. W. MacKay, T. Roser, and N. Tsoupas. Spin tracking simulations in AGS based on ray-tracing methods - bare lattice, no snakes -. Office of Scientific and Technical Information (OSTI), September 2009. http://dx.doi.org/10.2172/1043383.

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Gofryk, K., and M. Jaime. Spin-lattice coupling in uranium dioxide probed by magnetostriction measurements at high magnetic fields (P08358-E001-PF). Office of Scientific and Technical Information (OSTI), December 2014. http://dx.doi.org/10.2172/1173077.

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Meyer, Benjamin Michael. Nuclear Spin Lattice Relaxation and Conductivity Studies of the Non-Arrhenius Conductivity Behavior in Lithium Fast Ion Conducting Sulfide Glasses. Office of Scientific and Technical Information (OSTI), January 2003. http://dx.doi.org/10.2172/815760.

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LEE, T. D. RBRC / CCAST SYMPOSIUM ON SPIN PHYSICS LATTICE QCD AND RHIC PHYSICS, CHINA CENTER OF ADVANCED SCIENCE AND TECHNOLOGY, BEIJING, CHINA, APRIL 7, 2003. Office of Scientific and Technical Information (OSTI), May 2003. http://dx.doi.org/10.2172/812516.

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