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Articoli di riviste sul tema "Magnetotransport"

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Autore: Grafiati
Pubblicato: 4 giugno 2021
Ultima modifica: 6 settembre 2023

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1

Löhneysen, H. v., H. Bartolf, C. Pfleiderer, F. Obermair, M. Vojta e P. Wölfle. "Magnetotransport in". Physica B: Condensed Matter 378-380 (maggio 2006): 44–45. http://dx.doi.org/10.1016/j.physb.2006.01.338.

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2

Wu, Mingxing, Kouta Kondou, Taishi Chen, Satoru Nakatsuji e Yoshichika Otani. "Temperature-induced anomalous magnetotransport in the Weyl semimetal Mn3Ge". AIP Advances 13, n. 4 (1 aprile 2023): 045102. http://dx.doi.org/10.1063/5.0138208.

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The magnetic Weyl semimetallic state can lead to intriguing magnetotransport, such as chiral anomaly and the layered quantum Hall effect. Mn3X (X = Sn, Ge) is a noncollinear antiferromagnetic semimetal where a Weyl semimetallic state is stabilized by time-reversal symmetry breaking. Compared to the well-studied Mn3Sn, the Weyl fermion-induced magnetotransport in Mn3Ge has been merely studied. Here, we report an in-depth study on the magnetotransport in a microfabricated Mn3Ge single crystal from room temperature to 10 K. We reveal an anomalous anisotropic magnetoresistance with fourfold symmetry and a positive high-field longitudinal magnetoresistance below the critical temperature (160–170 K). The possible origin is the temperature-induced tilting of the Weyl nodes. Our study helps to understand the magnetotransport properties in the Weyl fermion system.
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3

Pȩkała, M., V. Drozd, J. F. Fagnard, Ph Vanderbemden e M. Ausloos. "Magnetotransport of La0.5Ba0.5MnO3". Journal of Applied Physics 105, n. 1 (gennaio 2009): 013923. http://dx.doi.org/10.1063/1.3032326.

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4

Stankiewicz, Jolanta, e Juan Bartolomé. "Magnetotransport properties ofNd2Fe14B". Physical Review B 59, n. 2 (1 gennaio 1999): 1152–56. http://dx.doi.org/10.1103/physrevb.59.1152.

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5

Noce, Canio, e Mario Cuoco. "Magnetotransport in Sr2RuO4". Physica B: Condensed Matter 284-288 (luglio 2000): 1972–73. http://dx.doi.org/10.1016/s0921-4526(99)02930-0.

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6

Movaghar, B., e S. Roth. "Magnetotransport in polyacetylene". Synthetic Metals 63, n. 3 (aprile 1994): 163–77. http://dx.doi.org/10.1016/0379-6779(94)90222-4.

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7

Jalil, M. B. A., S. G. Tan e X. Z. Cheng. "Advanced Modeling Techniques for Micromagnetic Systems". Journal of Nanoscience and Nanotechnology 7, n. 1 (1 gennaio 2007): 46–64. http://dx.doi.org/10.1166/jnn.2007.18006.

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We present a review of micromagnetic and magnetotransport modeling methods which go beyond the standard model. We first give a brief overview of the standard micromagnetic model, which for (i) the steady-state (equilibrium) solution is based on the minimization of the free energy functional, and for (ii) the dynamical solution, relies on the numerical solution of the Landau-Lifshitz-Gilbert (LLG) equation. We present three complements to the standard model, i.e., (i) magnetotransport calculations based on ohmic conduction in the presence of the anisotropic magnetoresistance (AMR) effect, (ii) magnetotransport calculations based on spin-dependent tunneling in the presence of single charge tunneling (Coulomb blockade) effect, and (iii) stochastic micromagnetics, which incorporates the effects of thermal fluctuations via a white-noise thermal field in the LLGequation. All three complements are of practical importance: (i) magnetotransport model either in the ohmic or tunneling transport regimes, enables the conversion of the micromagnetic results to the measurable quantity of magnetoresistance ratio, while (ii) stochastic modeling is essential as the dimensions of the micromagnetic system reduces to the deep submicron regime and approaches the superparamagnetic limit.
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8

Yang, Kaida, Victor Kryutyanskiy, Irina Kolmychek, Tatiana V. Murzina e R. Alejandra Lukaszew. "Experimental Correlation between Nonlinear Optical and Magnetotransport Properties Observed in Au-Co Thin Films". Journal of Nanomaterials 2016 (2016): 1–7. http://dx.doi.org/10.1155/2016/4786545.

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Magnetic materials where at least one dimension is in the nanometer scale typically exhibit different magnetic, magnetotransport, and magnetooptical properties compared to bulk materials. Composite magnetic thin films where the matrix composition, magnetic cluster size, and overall composite film thickness can be experimentally tailored via adequate processing or growth parameters offer a viable nanoscale platform to investigate possible correlations between nonlinear magnetooptical and magnetotransport properties, since both types of properties are sensitive to the local magnetization landscape. It has been shown that the local magnetization contrast affects the nonlinear magnetooptical properties as well as the magnetotransport properties in magnetic-metal/nonmagnetic metal multilayers; thus, nanocomposite films showcase another path to investigate possible correlations between these distinct properties which may prove useful for sensing applications.
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9

Семенов, С. В., Д. М. Гохфельд, К. Ю. Терентьев e Д. А. Балаев. "Механизмы, определяющие гистерезис магнитосопротивления гранулярного ВТСП в присутствии парамагнитного вклада, на примере HoBa-=SUB=-2-=/SUB=-Cu-=SUB=-3-=/SUB=-O-=SUB=-7-delta-=/SUB=-". Физика твердого тела 63, n. 10 (2021): 1462. http://dx.doi.org/10.21883/ftt.2021.10.51392.114.

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The hysteretic magnetoresistance of granular high-temperature superconductor (HTSC) HoBa2Cu3O7-δ is investigated. Superconductors of the YBCO family with magnetic rare earth elements (Nd, Ho, Er, Sm, Yb, Dy) in place of yttrium are characterized by a significant paramagnetic contribution to the total magnetization. Impact of this paramagnetic contribution on the magnetotransport properties is analyzed using the concept of an effective field in an intergranular medium. Lines of magnetic induction from paramagnetic moments do not concentrate in intergranular boundaries, and, thus, have an insignificant effect on magnetotransport properties of granular HTSC. At the same time, there are strong concentration of magnetic flux in the intergranular boundaries due to Meissner currents and Abrikosov vortices. This magnetic flux compression determines the magnetotransport properties of granular HTSCs, including YBCO with magnetic rare earth elements.
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10

Kim, Yun-Ki, Sung-Lae Cho e Ketterson J.B. "Magnetotransport Properties of MnGeP2Films". Journal of the Korean Magnetics Society 19, n. 4 (31 agosto 2009): 133–37. http://dx.doi.org/10.4283/jkms.2009.19.4.133.

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11

Yanagihara, H., e M. B. Salamon. "Magnetotransport Properties of CrO2." Journal of the Magnetics Society of Japan 27, n. 4 (2003): 285–88. http://dx.doi.org/10.3379/jmsjmag.27.285.

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12

Davies, R. A., D. J. Newson, T. G. Powell e M. J. Kelly. "Magnetotransport in semiconductor superlattices". Semiconductor Science and Technology 2, n. 1 (1 gennaio 1987): 61–64. http://dx.doi.org/10.1088/0268-1242/2/1/009.

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13

Mukherjee, A. K., e Reghu Menon. "Magnetotransport in doped polyaniline". Journal of Physics: Condensed Matter 17, n. 12 (12 marzo 2005): 1947–60. http://dx.doi.org/10.1088/0953-8984/17/12/017.

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14

Stankiewicz, Jolanta, e Konstantin P. Skokov. "Magnetotransport in Tb2Fe17single crystals". Journal of Physics: Conference Series 303 (6 luglio 2011): 012019. http://dx.doi.org/10.1088/1742-6596/303/1/012019.

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15

Suzuki, Katsuhiko, e P. M. Tedrow. "Resistivity and magnetotransport inCrO2films". Physical Review B 58, n. 17 (1 novembre 1998): 11597–602. http://dx.doi.org/10.1103/physrevb.58.11597.

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16

Mucha, Jan, Marek P ka a, Jadwiga Szyd owska, Wojciech Gadomski, Jun Akimitsu, Jean-Fran ois Fagnard, Philippe Vanderbemden, Rudi Cloots e Marcel Ausloos. "Magnetotransport study of MgB2superconductor". Superconductor Science and Technology 16, n. 10 (27 agosto 2003): 1167–72. http://dx.doi.org/10.1088/0953-2048/16/10/308.

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17

Seshadri, R., A. Maignan, M. Hervieu, N. Nguyen e B. Raveau. "Complex magnetotransport in LaSr2Mn2O7". Solid State Communications 101, n. 6 (febbraio 1997): 453–57. http://dx.doi.org/10.1016/s0038-1098(96)00628-x.

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18

Zhang, Enze, Yanwen Liu, Weiyi Wang, Cheng Zhang, Peng Zhou, Zhi-Gang Chen, Jin Zou e Faxian Xiu. "Magnetotransport Properties of Cd3As2Nanostructures". ACS Nano 9, n. 9 (27 agosto 2015): 8843–50. http://dx.doi.org/10.1021/acsnano.5b02243.

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19

Stankiewicz, Jolanta, e Juan Bartolomé. "Magnetotransport properties of compounds". Journal of Magnetism and Magnetic Materials 290-291 (aprile 2005): 1172–76. http://dx.doi.org/10.1016/j.jmmm.2004.11.571.

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20

Kepaptsoglou, D. M., K. Efthimiadis, P. Svec e E. Hristoforou. "Magnetotransport studies in ribbons". Journal of Magnetism and Magnetic Materials 304, n. 2 (settembre 2006): e583-e585. http://dx.doi.org/10.1016/j.jmmm.2006.02.182.

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21

Suryanarayanan, R., e V. Gasumyants. "Magnetotransport coefficients of Sm0.55Sr0.45MnO3". Journal of Physics and Chemistry of Solids 66, n. 1 (gennaio 2005): 143–45. http://dx.doi.org/10.1016/j.jpcs.2004.08.040.

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22

Köhler, R., H. Fischer, C. Schank, C. Geibel, F. Steglich, N. Sato e T. Komatsubara. "Anisotropic magnetotransport in UPd2Al3". Physica B: Condensed Matter 206-207 (febbraio 1995): 430–32. http://dx.doi.org/10.1016/0921-4526(94)00481-a.

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23

Bruus, Henrik, Karsten Flensberg e Henrik Smith. "Magnetotransport in quantum wires." Physica B: Condensed Matter 194-196 (febbraio 1994): 1239–40. http://dx.doi.org/10.1016/0921-4526(94)90949-0.

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24

Ranz, E., D. Lavielle, L. A. Cury, J. C. Portal, M. Razeghi e F. Omnes. "Magnetotransport measurements in heterostructures". Superlattices and Microstructures 8, n. 2 (gennaio 1990): 245–48. http://dx.doi.org/10.1016/0749-6036(90)90101-c.

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25

D'Onofrio, L., A. Hamzić e A. Fert. "Magnetotransport properties of YbNiSn". Physica B: Condensed Matter 171, n. 1-4 (maggio 1991): 266–68. http://dx.doi.org/10.1016/0921-4526(91)90528-m.

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26

Weiss, D., K. Richter, E. Vasiliadou e G. Lütjering. "Magnetotransport in antidot arrays". Surface Science 305, n. 1-3 (marzo 1994): 408–18. http://dx.doi.org/10.1016/0039-6028(94)90927-x.

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27

Mahendiran, R., A. Maignan, M. Hervieu, C. Martin e B. Raveau. "Anomalous magnetotransport in Pr0.5Ca0.5Mn0.99Cr0.01O3". Applied Physics Letters 77, n. 10 (4 settembre 2000): 1517–19. http://dx.doi.org/10.1063/1.1290726.

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28

Klitzing, K. v. "Magnetotransport in semiconductor nanostructures". Physica A: Statistical Mechanics and its Applications 200, n. 1-4 (novembre 1993): 1–3. http://dx.doi.org/10.1016/0378-4371(93)90499-t.

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29

Zholudev, Maksim S., Aleksandr M. Kadykov, Mikhail A. Fadeev, Michal Marcinkiewicz, Sandra Ruffenach, Christophe Consejo, Wojciech Knap et al. "Experimental Observation of Temperature-Driven Topological Phase Transition in HgTe/CdHgTe Quantum Wells". Condensed Matter 4, n. 1 (1 marzo 2019): 27. http://dx.doi.org/10.3390/condmat4010027.

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We report on the comparison between temperature-dependent magneto-absorption and magnetotransport spectroscopy of HgTe/CdHgTe quantum wells in terms of the detection of the phase transition between the topological insulator and band insulator states. Our results demonstrate that temperature-dependent magnetospectroscopy is a powerful tool to discriminate trivial and topological insulator phases, yet the magnetotransport method is shown to have advantages for the clear manifestation of the phase transition with accurate quantitative values of the transition parameter (i.e., critical magnetic field Bc).
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30

KIM, K. H., J. B. BETTS, M. JAIME, A. H. LACERDA, G. S. BOEBINGER, C. U. JUNG, H. J. KIM et al. "Mg AS A MAIN SOURCE FOR THE DIVERSE MAGNETOTRANSPORT PROPERTIES OF MgB2". International Journal of Modern Physics B 16, n. 20n22 (30 agosto 2002): 3185–88. http://dx.doi.org/10.1142/s0217979202013894.

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Magnetotransport properties of pure Mg metal and MgB 2 samples with varying amounts of excess Mg were systematically studied in magnetic fields up to 18 T. It is found that the both the Mg and inhomogeneous MgB 2 samples show large low temperature conductivity, residual resistance ratio (RRR) and magnetoresistance (MR) under high fields. Calculations of the generalized effective medium theory show that the large RRR and MR of the inhomogeneous MgB 2 samples can be explained by unusual magnetotransport properties of pure Mg metal.
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31

Sagar, Rizwan Ur Rehman, Chen Lifang, Ayaz Ali, Muhammad Farooq Khan, Mudassar Abbas, Muhamad Imran Malik, Karim Khan, Jinming Zeng, Tauseef Anwar e Tongxiang Liang. "Unusual magnetotransport properties in graphene fibers". Physical Chemistry Chemical Physics 22, n. 44 (2020): 25712–19. http://dx.doi.org/10.1039/d0cp05209d.

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32

KVON, Z. D., E. B. OLSHANETSKY, D. A. KOZLOV, N. N. MIKHAILOV e S. A. DVORETSKII. "A NEW TWO-DIMENSIONAL ELECTRON-HOLE SYSTEM". International Journal of Modern Physics B 23, n. 12n13 (20 maggio 2009): 2888–92. http://dx.doi.org/10.1142/s0217979209062499.

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A two-dimensional electron-hole system consisting of light high-mobility electrons with a density of Ns = (4 - 7) × 1010 cm -2 and heavier lower-mobility holes with a density Ps = (0.7 - 1.6) × 1011 cm -2 has been discovered in a quantum well based on mercury telluride with the (013) surface orientation. The system exhibits a number of specific magnetotransport properties in both the classical magnetotransport (positive magnetoresistance and sign-variable Hall effect) and the quantum Hall effect regime. These properties are associated with the coexistence of two-dimensional electrons and holes and actually manifest the first realization of a two-dimensional semimetal.
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33

Im, W. S., T. S. Yoon, F. C. Yu, C. X. Gao, D. J. Kim, Y. E. Ibm, H. J. Kim, C. S. Kim e C. O. Kim. "Magnetotransport of Be-doped GaMnAs". Korean Journal of Materials Research 15, n. 1 (1 gennaio 2005): 73–77. http://dx.doi.org/10.3740/mrsk.2005.15.1.073.

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34

Rosch, A. "Magnetotransport in nearly antiferromagnetic metals". Physical Review B 62, n. 8 (15 agosto 2000): 4945–62. http://dx.doi.org/10.1103/physrevb.62.4945.

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35

McAlister, S. P., M. Olivier e T. Siegrist. "Magnetotransport in (UxCe1−x)2Zn17alloys". Journal of Applied Physics 61, n. 8 (15 aprile 1987): 4370–72. http://dx.doi.org/10.1063/1.338425.

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36

Bashkin, Eugene P. "Magnetotransport effects in paramagnetic gases". Physical Review B 44, n. 22 (1 dicembre 1991): 12440–52. http://dx.doi.org/10.1103/physrevb.44.12440.

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37

Tso, H. C., e P. Vasilopoulos. "Magnetotransport along a quantum wire". Physical Review B 44, n. 23 (15 dicembre 1991): 12952–58. http://dx.doi.org/10.1103/physrevb.44.12952.

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38

Westerburg, W., D. Reisinger e G. Jakob. "Epitaxy and magnetotransport ofSr2FeMoO6thin films". Physical Review B 62, n. 2 (1 luglio 2000): R767—R770. http://dx.doi.org/10.1103/physrevb.62.r767.

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39

Maki, Kazumi. "Magnetotransport in spin-density waves". Physical Review B 47, n. 17 (1 maggio 1993): 11506–9. http://dx.doi.org/10.1103/physrevb.47.11506.

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40

Cebulski, J., W. Gebicki, V. I. Ivanov-Omskii, J. Polit e E. M. Sheregii. "Magnetotransport phenomena in multimode lattices". Journal of Physics: Condensed Matter 10, n. 38 (28 settembre 1998): 8587–610. http://dx.doi.org/10.1088/0953-8984/10/38/018.

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41

Xu, Hongqi. "Magnetotransport through mesoscopic antidot arrays". Journal of Vacuum Science & Technology B: Microelectronics and Nanometer Structures 15, n. 4 (luglio 1997): 1335. http://dx.doi.org/10.1116/1.589461.

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42

Sun, J. Z., L. Krusin-Elbaum, A. Gupta, Gang Xiao, P. R. Duncombe e S. S. P. Parkin. "Magnetotransport in doped manganate perovskites". IBM Journal of Research and Development 42, n. 1 (gennaio 1998): 89–102. http://dx.doi.org/10.1147/rd.421.0089.

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43

Flie\Ser, M., G. J. O. Schmidt e H. Spohn. "Magnetotransport of the Sinai billiard". Physical Review E 53, n. 6 (1 giugno 1996): 5690–97. http://dx.doi.org/10.1103/physreve.53.5690.

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44

Zhao, Y. M., P. F. Zhou, X. J. Yang, G. M. Qiu e L. Ping. "Magnetotransport properties of SrFeO2.95 perovskite". Solid State Communications 120, n. 7-8 (ottobre 2001): 283–87. http://dx.doi.org/10.1016/s0038-1098(01)00389-1.

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45

Samuilov, V. A., J. Galibert, V. K. Ksenevich, V. J. Goldman, M. Rafailovich, J. Sokolov, I. A. Bashmakov e V. A. Dorosinets. "Magnetotransport in mesoscopic carbon networks". Physica B: Condensed Matter 294-295 (gennaio 2001): 319–23. http://dx.doi.org/10.1016/s0921-4526(00)00668-2.

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46

Rey-Cabezudo, C., M. Sánchez-Andújar, J. Mira, A. Fondado, J. Rivas e M. A. Señarís-Rodríguez. "Magnetotransport in Gd1-xSrxCoO3(0". Chemistry of Materials 14, n. 2 (febbraio 2002): 493–98. http://dx.doi.org/10.1021/cm010051a.

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47

Huang, Yi-Chi, P. C. Lee, C. H. Chien, F. Y. Chiu, Y. Y. Chen e Sergey R. Harutyunyan. "Magnetotransport properties of Sb2Te3 nanoflake". Physica B: Condensed Matter 452 (novembre 2014): 108–12. http://dx.doi.org/10.1016/j.physb.2014.07.010.

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48

Abe, Yasushi, Yoichi Ando, J. Takeya, H. Tanabe, T. Watauchi, I. Tanaka e H. Kojima. "Normal-state magnetotransport inLa1.905Ba0.095CuO4single crystals". Physical Review B 59, n. 22 (1 giugno 1999): 14753–56. http://dx.doi.org/10.1103/physrevb.59.14753.

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49

Nagao, Taro. "Magnetotransport through Random Antidot Lattices". Journal of the Physical Society of Japan 65, n. 8 (15 agosto 1996): 2606–9. http://dx.doi.org/10.1143/jpsj.65.2606.

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50

Xu, Qingyu, Lars Hartmann, Heidemarie Schmidt, Holger Hochmuth, Michael Lorenz, Annette Setzer, Pablo Esquinazi, Christoph Meinecke e Marius Grundmann. "Magnetotransport properties of Zn90Mn7.5Cu2.5O100 films". Thin Solid Films 516, n. 6 (gennaio 2008): 1160–63. http://dx.doi.org/10.1016/j.tsf.2007.06.145.

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