26 resultados para PFG-NMR spin echo


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Spintronics, or spin electronics, is aimed at efficient control and manipulation of spin degrees of freedom in electron systems. To comply with demands of nowaday spintronics, the studies of electron systems hosting giant spin-orbit-split electron states have become one of the most important problems providing us with a basis for desirable spintronics devices. In construction of such devices, it is also tempting to involve graphene, which has attracted great attention because of its unique and remarkable electronic properties and was recognized as a viable replacement for silicon in electronics. In this case, a challenging goal is to lift spin degeneracy of graphene Dirac states. Here, we propose a novel pathway to achieve this goal by means of coupling of graphene and polar-substrate surface states with giant Rashba-type spin-splitting. We theoretically demonstrate it by constructing the graphene@BiTeCl system, which appears to possess spin-helical graphene Dirac states caused by the strong interaction of Dirac and Rashba electrons. We anticipate that our findings will stimulate rapid growth in theoretical and experimental investigations of graphene Dirac states with real spin-momentum locking, which can revolutionize the graphene spintronics and become a reliable base for prospective spintronics applications.

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170 p.

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We investigate analytically and numerically nonlinear vortex spin torque oscillator dynamics in a circular magnetic nanodot induced by a spin-polarized current perpendicular to the dot plane. We use a generalized nonlinear Thiele equation including spin-torque term by Slonczewski for describing the nanosize vortex core transient and steady orbit motions and analyze nonlinear contributions to all forces in this equation. Blue shift of the nano-oscillator frequency increasing the current is explained by a combination of the exchange, magnetostatic, and Zeeman energy contributions to the frequency nonlinear coefficient. Applicability and limitations of the standard nonlinear nano-oscillator model are discussed.

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[EU]Enpresak sortzeko UPV/EHUko lehen programek eta programa horietatik sortutako lehen spin-offek hamabost urte baino gehiagoko ibilbidea egin dute jada. Denbora tarte horretan, hain zuzen, UPV/EHUtik hainbat spin-off sortu dira. Logikak agintzen duen moduan, enpresa bakoitzak garapen zehatza izan du, eta gaur egun bizi duen egoera bakarra da. Hala nola, enpresa bakoitzak unibertsitatearekin egun duen harremana ere desberdina da. Bada, ikerlan honen helburu nagusia da, alde batetik, UPV/EHUko egungo testuinguru ekintzailea aztertzea; eta bestetik, unibertsitateak spin-offen sorrera eta garapenean izan duen eragina ikertzea. Horretarako, enpresak sortzeko UPV/EHUko programaren baten babespean sortutako 40 spin-off aztertu dira, web formulario bidez bidalitako inkesta baten bitartez.

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Single-spin asymmetries were investigated in inclusive electroproduction of charged pions and kaons from transversely polarized protons at the HERMES experiment. The asymmetries were studied as a function of the azimuthal angle psi about the beam direction between the target-spin direction and the hadron production plane, the transverse hadron momentum P-T relative to the direction of the incident beam, and the Feynman variable x(F). The sin psi* amplitudes are positive for pi(+) and K+ slightly negative for pi(-) and consistent with zero for K-, with particular P-T but weak x(F) dependences. Especially large asymmetries are observed for two small subsamples of events, where also the scattered electron was recorded by the spectrometer. (C) 2013 The Authors. Published by Elsevier B.V. All rights reserved.

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We show that dynamics in the spin-orbit coupling field simulate the von Neumann measurement of a particle spin. We demonstrate how the measurement influences the spin and coordinate evolution of a particle by comparing two examples of such a procedure. The first example is a simultaneous measurement of spin components, sigma(x) and sigma(y), corresponding to non-commuting operators, which cannot be accurately obtained together at a given time instant due to the Heisenberg uncertainty ratio. By mapping spin dynamics onto a spatial walk, such a procedure determines measurement-time averages of sigma(x) and sigma(y), which can already be precisely evaluated in a single short-time measurement. The other, qualitatively different, example is the spin of a one-dimensional particle in a magnetic field. Here, the measurement outcome depends on the angle between the spin-orbit coupling and magnetic fields. These results can be applied to studies of spin-orbit coupled cold atoms and electrons in solids.

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158 p.

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137 p.

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Systems of interacting quantum spins show a rich spectrum of quantum phases and display interesting many-body dynamics. Computing characteristics of even small systems on conventional computers poses significant challenges. A quantum simulator has the potential to outperform standard computers in calculating the evolution of complex quantum systems. Here, we perform a digital quantum simulation of the paradigmatic Heisenberg and Ising interacting spin models using a two transmon-qubit circuit quantum electrodynamics setup. We make use of the exchange interaction naturally present in the simulator to construct a digital decomposition of the model-specific evolution and extract its full dynamics. This approach is universal and efficient, employing only resources that are polynomial in the number of spins, and indicates a path towards the controlled simulation of general spin dynamics in superconducting qubit platforms.

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[ES] Diversos estudios han mostrado evidencias de que las empresas creadas desde las universidades (spin-offs) presentan unas tasas de crecimiento menores que otros tipos de start-ups. Esto puede deberse en parte a que un porcentaje de ellas pueden estar orientadas a dar continuidad a proyectos de investigación en base a ayudas públicas, en lugar de a valorizar resultados de investigación en el mercado. El principal objetivo de este trabajo es contrastar si es posible diferenciar dos tipos de spin-offs en función de si están orientadas al mercado o no. Además, en segundo lugar, hemos tratado de comprobar si es posible identificar esta orientación desde las primeras fases de vida de las spin-offs, lo que afectaría al perfil de riesgo desde el punto de vista de los inversores. Para ello hemos utilizado una muestra de 20 spin-offs y se ha procedido a analizar tanto sus estados contables como las ayudas y subvenciones públicas obtenidas durante sus primeros cinco años de actividad. La metodología empleada ha sido el análisis de conglomerados. Los resultados obtenidos sugieren que, si bien efectivamente un número significativo de spin-offs no parecen orientadas al mercado, esta diferenciación no puede inferirse de la información inicial económico financiera de la empresa. Este hecho puede dar lugar a un riesgo de orientación , definido como la imposibilidad por parte del inversor inicial de saber si existe una orientación o no al mercado de la spin-off.