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Journal articles on the topic 'Spin'

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Author: Grafiati
Published: 4 June 2021
Last updated: 30 July 2024

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1

Shaobing Zhu, Shaobing Zhu, Jun Qian Jun Qian, and Yuzhu Wang Yuzhu Wang. "Spin dynamics of high-spin fermions in optical superlattices." Chinese Optics Letters 15, no. 6 (2017): 060202. http://dx.doi.org/10.3788/col201715.060202.

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2

Oestreich, M., M. Bender, J. H bner, D. H gele, W. W. R hle, Th Hartmann, P. J. Klar, et al. "Spin injection, spin transport and spin coherence." Semiconductor Science and Technology 17, no. 4 (March 21, 2002): 285–97. http://dx.doi.org/10.1088/0268-1242/17/4/302.

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3

Baranov, Pavel G., and Vladimir Dyakonov. "Spin Physics, Spin Chemistry and Spin Technology." Applied Magnetic Resonance 47, no. 7 (June 18, 2016): 655–56. http://dx.doi.org/10.1007/s00723-016-0802-8.

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4

Briones, J., H. C. Schneider, and B. Rethfeld. "Monte Carlo simulation of ultrafast nonequilibrium spin and charge transport in iron." Journal of Physics Communications 6, no. 3 (March 1, 2022): 035001. http://dx.doi.org/10.1088/2399-6528/ac5873.

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Abstract Spin transport and spin dynamics after femtosecond laser pulse irradiation of iron (Fe) are studied using a kinetic Monte Carlo model. This model simulates spin dependent dynamics by taking into account two interaction processes during nonequilibrium: elastic electron–lattice scattering, where only the direction of the excited electrons changes, and inelastic electron–electron scattering processes, where secondary electrons are generated. An analysis of the spin dependent particle kinetics inside the material shows that a smaller elastic scattering time leads to a larger spatial spread of electrons in the material, whereas generation of secondary electrons extends the time span for superdiffusive transport and increases the spin current density.
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5

Budker, V., J. L. Du, M. Seiter, G. R. Eaton, and S. S. Eaton. "Electron-electron spin-spin interaction in spin-labeled low-spin methemoglobin." Biophysical Journal 68, no. 6 (June 1995): 2531–42. http://dx.doi.org/10.1016/s0006-3495(95)80436-4.

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6

Routledge, Paul. "Meeting spin with spin." British Journalism Review 18, no. 1 (March 2007): 29–33. http://dx.doi.org/10.1177/0956474807077784.

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7

Takahashi, Saburo, and Sadamichi Maekawa. "Spin current, spin accumulation and spin Hall effect." Science and Technology of Advanced Materials 9, no. 1 (January 2008): 014105. http://dx.doi.org/10.1088/1468-6996/9/1/014105.

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8

Conzett, H. E. "Spin-orbit and spin-spin interactions in ΛNandNNscattering." Physical Review C 48, no. 2 (August 1, 1993): 924–25. http://dx.doi.org/10.1103/physrevc.48.924.

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9

Owen, David A. "Bethe-Salpeter equation: Spin-0-spin-½ and spin-0-spin-0 bound states." Physical Review D 42, no. 10 (November 15, 1990): 3534–47. http://dx.doi.org/10.1103/physrevd.42.3534.

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10

Eichele, Klaus, Roderick E. Wasylishen, Robert W. Schurko, Neil Burford, and W. Alex Whitla. "An unusually large value of 1J(31P,31P) for a solid triphenylphosphine phosphadiazonium cationic complex: determination of the sign of J from 2D spin-echo experiments." Canadian Journal of Chemistry 74, no. 11 (November 1, 1996): 2372–77. http://dx.doi.org/10.1139/v96-264.

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Phosphorus-31 NMR spectra of a solid triphenylphosphine phosphadiazonium salt, [Mes*NP-PPh3][SO3CF3], have been acquired at 4.7 and 9.4 T. Analysis of the spectra obtained with magic-angle spinning indicates that the two phosphorus nuclei are strongly spin–spin coupled, [Formula: see text], despite the unusually long P—P separation, rP,P = 2.625 Å. Two-dimensional spin-echo spectra provide convincing evidence that 1J(31P,31P) is negative. Semi-empirical molecular orbital calculations at the INDO level support the negative sign for 1J(31P,31P). A large span, 576 ppm, is observed for the chemical shift tensor of the two-coordinate phosphorus centre (δ11 = 307 ppm, δ22 = 174 ppm, δ33 = −269 ppm), which is very similar to the value previously reported for the non-coordinated phosphorus centre in the free Lewis acid, [Mes*NP][AlCl4]. The principal components and orientations of the phosphorus shielding tensors of these compounds are compared with those calculated for [HNP]+ and its phosphine adduct using the ab initio Gauge-Including Atomic Orbitals method. The phosphorus chemical shift tensor of the triphenylphosphine moiety has a relatively small span of 33 ppm. Key words: spin–spin coupling constants, solid-state NMR, 31P NMR, MO calculations, phosphadiazonium cation, P—P bonds.
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11

da Silva, A. F., A. S. Martins, M. F. de Campos, and A. P. Lima. "Revisiting Spin Glasses: Impact of Spin-Spin Interaction Range." Brazilian Journal of Physics 48, no. 1 (December 12, 2017): 39–45. http://dx.doi.org/10.1007/s13538-017-0547-3.

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12

Pritt, A. T. "Spin-spin and spin-rotation constants of NBr(X3Σ−)." Journal of Molecular Spectroscopy 130, no. 1 (July 1988): 54–61. http://dx.doi.org/10.1016/0022-2852(88)90282-2.

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13

Wagner, Th, S. Götz, N. Masuhara, and G. Eska. "Spin-spin interaction and multiple spin-echoes in AuIn2." Journal of Low Temperature Physics 101, no. 3-4 (November 1995): 657–63. http://dx.doi.org/10.1007/bf00753370.

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14

K. Hoffman, Stanisław. "Electron spin echo studies of spin-spin relaxation processes." Radiation Physics and Chemistry 45, no. 6 (June 1995): 979. http://dx.doi.org/10.1016/0969-806x(95)93970-h.

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15

Balbutsev, E. B. "Spin Scissors and Spin-Flip." Physics of Atomic Nuclei 85, no. 4 (August 2022): 338–50. http://dx.doi.org/10.1134/s1063778822040044.

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16

Raymo, Chet. "A Spin on Spin Foam." Scientific American 285, no. 2 (August 2001): 91–92. http://dx.doi.org/10.1038/scientificamerican0801-91.

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17

Lu, Z. Q., G. Pan, A. A. Jibouri, and Yaunkai Zheng. "Spin-filter specular spin valves." Journal of Applied Physics 91, no. 1 (2002): 287. http://dx.doi.org/10.1063/1.1420773.

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18

Sonin, E. B. "Spin currents and spin superfluidity." Advances in Physics 59, no. 3 (April 15, 2010): 181–255. http://dx.doi.org/10.1080/00018731003739943.

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19

Bonnor, W. B. "Classical gravitational spin–spin interaction." Classical and Quantum Gravity 19, no. 1 (December 19, 2001): 143–47. http://dx.doi.org/10.1088/0264-9381/19/1/308.

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20

Pestov, I. B. "Geometrical spin symmetry and spin." Physics of Atomic Nuclei 74, no. 7 (July 2011): 1055–61. http://dx.doi.org/10.1134/s1063778811060238.

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21

Walstedt, R. E., and S. W. Cheong. "Cu63,65indirect spin-spin coupling inLa1.85Sr0.15CuO4." Physical Review B 53, no. 10 (March 1, 1996): R6030—R6033. http://dx.doi.org/10.1103/physrevb.53.r6030.

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22

Siu, Zhuo Bin, Mansoor B. A. Jalil, and Ching-Ray Chang. "Persistent Spin Helix Spin Polarizer." IEEE Transactions on Magnetics 50, no. 11 (November 2014): 1–4. http://dx.doi.org/10.1109/tmag.2014.2329531.

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23

Das Sarma, S., Jaroslav Fabian, Xuedong Hu, and Igor Z̆utić. "Spin electronics and spin computation." Solid State Communications 119, no. 4-5 (July 2001): 207–15. http://dx.doi.org/10.1016/s0038-1098(01)00111-9.

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24

Kreitzman, S. R., D. Ll Williams, N. Kaplan, J. R. Kempton, and J. H. Brewer. "Spin Echoes forμ+-Spin Spectroscopy." Physical Review Letters 61, no. 25 (December 19, 1988): 2890–93. http://dx.doi.org/10.1103/physrevlett.61.2890.

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25

Di Stefano, R., R. Voss, and J. Claeys. "Spin-Up/Spin-Down Models." Proceedings of the International Astronomical Union 7, S281 (July 2011): 64–67. http://dx.doi.org/10.1017/s1743921312014706.

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AbstractAngular momentum transport plays an important role in mass transfer systems, and can significantly spin up an accreting star. When the accretor is a white dwarf (WD) on its way to becoming a Type Ia supernova (SN Ia), the spin up of the WD can have significant consequences for the appearance of the progenitor, the characteristics of the explosion and its aftermath, the geometry of the supernova remnant, and for single-degenerate models, the appearance of the donor star post-explosion. These consequences can be “game changers”, altering results that have long been taken for granted. We discuss key features of our spin-up/spin-down models and their implications. We relate our models to work still needed to address the difficult physical issues related to angular momentum transport and its effects on the properties and appearance of Type Ia supernova progenitors.
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26

Rashba, E. I. "Spin Dynamics and Spin Transport." Journal of Superconductivity 18, no. 2 (April 2005): 137–44. http://dx.doi.org/10.1007/s10948-005-3349-8.

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27

Tidd, Joe, and Simon Barnes. "Spin-In or Spin-Out?" International Journal of Entrepreneurship and Innovation 1, no. 2 (June 2000): 109–16. http://dx.doi.org/10.5367/000000000101298603.

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This paper examines the variety of corporate venturing activities in the pharmaceutical and life science sectors, identifies the range of initiators, motives and structures, and evaluates the potential opportunities for professional venture capital firms. On the one hand, pharmaceutical companies need to maintain the new product pipeline that has increased the demand for technology acquisition, and on the other, mergers and rationalization within the sector have resulted in a significant growth in technology divestment. Both trends have boosted corporate venturing activity. The study examines the venture activities of nine pharmaceutical firms, fourteen life science companies and seven corporate venture capital funds. The authors conclude that, while there is a wide range of venturing options, there is considerable confusion in the industry over ends and means. Specifically, many firms have failed to differentiate sufficiently between strategic, financial and operational goals, and have therefore created inappropriate forms of corporate venture.
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28

Sánchez, Rafael, Sigmund Kohler, and Gloria Platero. "Spin correlations in spin blockade." New Journal of Physics 10, no. 11 (November 20, 2008): 115013. http://dx.doi.org/10.1088/1367-2630/10/11/115013.

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29

Loth, Sebastian, Christopher P. Lutz, and Andreas J. Heinrich. "Spin-polarized spin excitation spectroscopy." New Journal of Physics 12, no. 12 (December 22, 2010): 125021. http://dx.doi.org/10.1088/1367-2630/12/12/125021.

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30

Buchachenko, Anatoly L., and Vitaly L. Berdinsky. "Spin catalysis: three-spin model." Chemical Physics Letters 242, no. 1-2 (August 1995): 43–47. http://dx.doi.org/10.1016/0009-2614(95)00726-k.

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31

Frank, Mariana, and Patrick J. O'Donnell. "Spin-spin interactions in quarkonium." Physics Letters B 159, no. 2-3 (September 1985): 174–76. http://dx.doi.org/10.1016/0370-2693(85)90880-9.

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32

Lynd, Juliet. "“Cecilia Vicuña: Spin Spin Triangulene”." Review: Literature and Arts of the Americas 56, no. 1 (January 2, 2023): 136–38. http://dx.doi.org/10.1080/08905762.2023.2195326.

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33

Owen, David A. "Erratum: Bethe-Salpeter equation: Spin-0-spin-½ and spin-0-spin-0 bound states." Physical Review D 46, no. 10 (November 15, 1992): 4782. http://dx.doi.org/10.1103/physrevd.46.4782.

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34

Hou, Xiyun, and Xiaosheng Xin. "A Note on the Spin–Orbit, Spin–Spin, and Spin–Orbit–Spin Resonances in the Binary Minor Planet System." Astronomical Journal 154, no. 6 (November 28, 2017): 257. http://dx.doi.org/10.3847/1538-3881/aa96ab.

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35

Trier, Felix, Paul Noël, Joo-Von Kim, Jean-Philippe Attané, Laurent Vila, and Manuel Bibes. "Oxide spin-orbitronics: spin–charge interconversion and topological spin textures." Nature Reviews Materials 7, no. 4 (November 26, 2021): 258–74. http://dx.doi.org/10.1038/s41578-021-00395-9.

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36

Sørensen, Anders, and Klaus Mølmer. "Spin-Spin Interaction and Spin Squeezing in an Optical Lattice." Physical Review Letters 83, no. 11 (September 13, 1999): 2274–77. http://dx.doi.org/10.1103/physrevlett.83.2274.

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37

Ezawa, M. "Spin filter, spin amplifier and spin diode in graphene nanodisk." European Physical Journal B 67, no. 4 (February 2009): 543–49. http://dx.doi.org/10.1140/epjb/e2009-00041-7.

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38

Adhikari, S., A. S. Majumdar, Dipankar Home, and A. K. Pan. "Swapping path-spin intraparticle entanglement onto spin-spin interparticle entanglement." EPL (Europhysics Letters) 89, no. 1 (January 1, 2010): 10005. http://dx.doi.org/10.1209/0295-5075/89/10005.

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39

Fine, Boris V. "NMR Spin-Spin Relaxation as Kinetics in Spin Phase Space." Physical Review Letters 79, no. 23 (December 8, 1997): 4673–76. http://dx.doi.org/10.1103/physrevlett.79.4673.

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40

Huntley, A., and C. Michael. "Spin-spin and spin-orbit potentials from lattice gauge theory." Nuclear Physics B 286 (January 1987): 211–30. http://dx.doi.org/10.1016/0550-3213(87)90438-x.

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41

Plefka, T. "Nonlinear damping in spin systems: long range spin-spin interactions." Zeitschrift f�r Physik B Condensed Matter 90, no. 4 (December 1993): 447–54. http://dx.doi.org/10.1007/bf01308824.

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42

Gmitra, M., J. Barnaś, and D. Horváth. "Spin dynamics due to spin-transfer in magnetic spin valves." Journal of Alloys and Compounds 423, no. 1-2 (October 2006): 194–96. http://dx.doi.org/10.1016/j.jallcom.2006.01.090.

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43

Keren, Amit, Philippe Mendels, Ian A. Campbell, and James Lord. "Probing the Spin-Spin Dynamical Autocorrelation Function in a Spin Glass aboveTgvia Muon Spin Relaxation." Physical Review Letters 77, no. 7 (August 12, 1996): 1386–89. http://dx.doi.org/10.1103/physrevlett.77.1386.

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44

Hattori, Kiminori. "Spin-Current-Driven Spin Pumping in Rashba Spin–Orbit Coupled Systems: A Spin Torque Effect." Journal of the Physical Society of Japan 78, no. 8 (August 15, 2009): 084703. http://dx.doi.org/10.1143/jpsj.78.084703.

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45

Kajiwara, Y., K. Uchida, D. Kikuchi, T. An, Y. Fujikawa, and E. Saitoh. "Spin-relaxation modulation and spin-pumping control by transverse spin-wave spin current in Y3Fe5O12." Applied Physics Letters 103, no. 5 (July 29, 2013): 052404. http://dx.doi.org/10.1063/1.4817076.

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46

Cacciani, P., J. Cosléou, F. Herlemont, M. Khelkhal, and J. Legrand. "Experimental determination of spin-rotation and spin-spin magnetic interactions in by nuclear spin conversion." European Physical Journal D 22, no. 2 (February 2003): 199–207. http://dx.doi.org/10.1140/epjd/e2003-00013-1.

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47

Kim, Seon Woo, Donghwi Jung, and Yun-Jae Choung. "Development of a Multiple Linear Regression Model for Meteorological Drought Index Estimation Based on Landsat Satellite Imagery." Water 12, no. 12 (December 2, 2020): 3393. http://dx.doi.org/10.3390/w12123393.

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Climate polarization due to global warming has increased the intensity of drought in some regions, and the need for drought estimation studies to help minimize damage is increasing. In this study, we constructed remote sensing and climate data for Boryeong, Chungcheongnam-do, Korea, and developed a model for drought index estimation by classifying data characteristics and applying multiple linear regression analysis. The drought indices estimated in this study include four types of standardized precipitation indices (SPI1, SPI3, SPI6, and SPI9) used as meteorological drought indices and calculated through cumulative precipitation. We then applied statistical analysis to the developed model and assessed its ability as a drought index estimation tool using remote sensing data. Our results showed that its adj.R2 value, achieved using cumulative precipitation for one month, was very low (approximately 0.003), while for the SPI3, SPI6, and SPI9 models, the adj.R2 values were significantly higher than the other models at 0.67, 0.64, and 0.56, respectively, when the same data were used.
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48

Grace, Mike. "Spin." British Dental Journal 197, no. 6 (September 2004): 289. http://dx.doi.org/10.1038/sj.bdj.4811640.

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49

Bergman, Shai, Tanya Brokhman, Tzachi Cohen, and Mark Silberstein. "SPIN." ACM Transactions on Computer Systems 36, no. 2 (April 16, 2019): 1–26. http://dx.doi.org/10.1145/3309987.

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50

Schardt, Christopher. "Spin." Leonardo 36, no. 5 (October 2003): 367. http://dx.doi.org/10.1162/leon.2003.36.5.367.

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