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Artykuły w czasopismach na temat „NiMnGa Films”

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Data publikacji: 6 września 2023

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1

Vovk, Andriy, Leszek Malkinski, Vladimir Golub, Charles O’Connor, Zhenjun Wang i Jinke Tang. "Magnetotransport in NiMnGa thin films". Journal of Applied Physics 97, nr 10 (15.05.2005): 10C503. http://dx.doi.org/10.1063/1.1847411.

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2

Dubowik, J., I. Gościańska i Y. V. Kudryavtsev. "NiMnGa Ferromagnetic Shape Memory Films". Czechoslovak Journal of Physics 54, S4 (grudzień 2004): 213–16. http://dx.doi.org/10.1007/s10582-004-0066-7.

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3

Golub, Vladimir O., Andriy Ya Vovk, Leszek Malkinski, Charles J. O’Connor, Zhenjun Wang i Jinke Tang. "Anomalous magnetoresistance in NiMnGa thin films". Journal of Applied Physics 96, nr 7 (październik 2004): 3865–69. http://dx.doi.org/10.1063/1.1771474.

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4

Żuberek, R., O. M. Chumak, A. Nabiałek, M. Chojnacki, I. Radelytskyi i H. Szymczak. "Magnetocaloric effect and magnetoelastic properties of NiMnGa and NiMnSn Heusler alloy thin films". Journal of Alloys and Compounds 748 (czerwiec 2018): 1–5. http://dx.doi.org/10.1016/j.jallcom.2018.03.061.

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5

Wuttig, Manfred, Corneliu Craciunescu i Jian Li. "Phase Transformations in Ferromagnetic NiMnGa Shape Memory Films". Materials Transactions, JIM 41, nr 8 (2000): 933–37. http://dx.doi.org/10.2320/matertrans1989.41.933.

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6

Hakola, A., O. Heczko, A. Jaakkola, T. Kajava i K. Ullakko. "Pulsed laser deposition of NiMnGa thin films on silicon". Applied Physics A 79, nr 4-6 (wrzesień 2004): 1505–8. http://dx.doi.org/10.1007/s00339-004-2831-7.

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7

Chernenko, Volodymyr A., Ricardo López Antón, Stefano Besseghini, José M. Barandiarán, Makoto Ohtsuka, Andrea Gambardella i Peter Müllner. "Magnetization and Domain Patterns in Martensitic NiMnGa Films on Si(100) Wafer". Advanced Materials Research 52 (czerwiec 2008): 35–43. http://dx.doi.org/10.4028/www.scientific.net/amr.52.35.

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A series of Ni51.4Mn28.3Ga20.3 films sputter-deposited on Si(100) wafer (with 500 nm thick buffer layer of SiNx) and annealed at 800 oC for 1h. are investigated with respect to their transformation behavior and magnetic properties. The film thickness, d, varies from 0.1 to 5.0 μm. Resistivity measurements reveal martensitic transformation above room temperature for all the films except for 0.1μm-thick film which is transforming at much lower temperature. The magnetic characteristics of martensitic films such as susceptibility and anisotropy field extracted from the inplane and out-of-plane magnetization curves show film thickness dependence likewise Curie temperature obtained from the resistivity curves. The surface topography and micromagnetic structure are studied by scanning probe microscopy. A stripe magnetic domain pattern featuring a large out-of-plane magnetization component is found in the films. The domain width, δ, depends on the film thickness, d, as δ ~ d .
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8

Kohl, Manfred, Marcel Gueltig i Frank Wendler. "Coupled Simulation of Thermomagnetic Energy Generation Based on NiMnGa Heusler Alloy Films". Shape Memory and Superelasticity 4, nr 1 (19.01.2018): 242–55. http://dx.doi.org/10.1007/s40830-018-0148-1.

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9

Zhu, T. J., L. Lu, M. O. Lai i J. Ding. "Growth and magnetic properties of NiMnGa thin films prepared by pulsed laser ablation". Smart Materials and Structures 14, nr 5 (24.08.2005): S293—S296. http://dx.doi.org/10.1088/0964-1726/14/5/018.

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10

Rumpf, H., C. M. Craciunescu, H. Modrow, Kh Olimov, E. Quandt i M. Wuttig. "Successive occurrence of ferromagnetic and shape memory properties during crystallization of NiMnGa freestanding films". Journal of Magnetism and Magnetic Materials 302, nr 2 (lipiec 2006): 421–28. http://dx.doi.org/10.1016/j.jmmm.2005.10.001.

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11

Wang, Changan, Xiaogong Fang, Aihua Zhang, Min Zeng, Zhen Fan, Deyang Chen, Xingsen Gao i Xubing Lu. "Coupling of ferroelastic strain and ferroelectric phase transition in NiMnGa/Pb0.97La0.02(Zr0.95Ti0.05)O3 bilayered films". Ceramics International 44, nr 14 (październik 2018): 17199–203. http://dx.doi.org/10.1016/j.ceramint.2018.06.176.

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12

Kim, Hyoun Woo, Han Gil Na, Dong Sub Kwak, Yong Jung Kwon, Tran Van Khai, Chongmu Lee i Jong Hoon Jung. "Fabrication and magnetic properties of In2O3/NiMnGa core–shell nanowires". Thin Solid Films 546 (listopad 2013): 219–25. http://dx.doi.org/10.1016/j.tsf.2013.03.077.

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13

Sharma, Amit, S. Mohan i Satyam Suwas. "Development of bi-axial preferred orientation in epitaxial NiMnGa thin films and its consequence on magnetic properties". Acta Materialia 113 (lipiec 2016): 259–71. http://dx.doi.org/10.1016/j.actamat.2016.04.037.

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14

Arivanandhan, Gowtham, Zixiong Li, Sabrina Curtis, Prasanth Velvaluri, Eckhard Quandt i Manfred Kohl. "Temperature Homogenization of Co-Integrated Shape Memory—Silicon Bimorph Actuators". Proceedings 64, nr 1 (20.11.2020): 8. http://dx.doi.org/10.3390/iecat2020-08501.

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The high work density and beneficial downscaling of shape memory alloy (SMA) actuation performance provide a basis for the development of actuators and systems at microscales. Here, we report a novel monolithic fabrication approach for the co-integration of SMA and Si microstructures to enable SMA-Si bimorph microactuation. Double-beam cantilevers are chosen for the actuator layout to enable electrothermal actuation by Joule heating. The SMA materials under investigation are NiMnGa and NiTi(Hf) films with tunable phase transformation temperatures. We show that Joule heating of the cantilevers generates increasing temperature gradients for decreasing cantilever size, which hampers actuation performance. In order to cope with this problem, a new method for design optimization is presented based on finite element modeling (FEM) simulations. We demonstrate that temperature homogenization can be achieved by the design of additional folded beams in the perpendicular direction to the active beam cantilevers. Thereby, power consumption can be reduced by more than 35 % and maximum deflection can be increased up to a factor of 2 depending on the cantilever geometry.
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15

Panda, A. K., Satnam Singh, S. K. Das, A. Mitra, M. Koblischka, Brice Jamieson i Saibal Roy. "Effect of magnetizing field on the martensitic transformations in a melt spun NiMnGa alloy". Journal of Physics D: Applied Physics 42, nr 24 (25.11.2009): 245004. http://dx.doi.org/10.1088/0022-3727/42/24/245004.

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16

Yang, Bo, Zong Bin Li, Yu Dong Zhang, Claude Esling, Gao Wu Qin, Xiang Zhao i Liang Zuo. "Identification of Crystal Structure and Crystallographic Features of NiMnGa Thin Films by Combination of X-Ray Diffraction (XRD) and Electron Backscatter Diffraction (EBSD)". Materials Science Forum 783-786 (maj 2014): 2561–66. http://dx.doi.org/10.4028/www.scientific.net/msf.783-786.2561.

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In this work, NiMnGa thin film composed of non-modulated martensite (NM) and seven-layered modulated martensite (7M) was produced. The crystal structure and lattice constants were determined by X-ray diffractometer (XRD). The preferred crystallographic orientation of martensite was determined using the four-circle XRD. SEM/EBSD was employed to verify the crystal structure of the martensite and to reveal its crystallographic features correlated with the microstructure. According to the XRD patterns, the crystal structure of NM and 7M was determined as tetragonal and monoclinic crystal structure, respectively. Pole figures measured by four-circle diffractometer revealed that the NM martensite possesses (004)NM and (220)NM preferred plane texture close to the substrate surface, whereas the 7M martensite has (2 0 20)7M, (2 0 )7M and (040)7M preferred plane texture close to the substrate surface. SEM/EBSD analysis shows that the surface layer of the film is mainly composed of NM martensite that is organized in variant groups. In each variant group, all the martensite plates consist of paired lamellar (112)NM compound twins and there are eight orientation variants in each variant group.
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17

Krupa, M. M., Yu B. Skirta, I. V. Sharay i I. V. Gerasimchuk. "Magnetic field sensors based on the foil of amorphous cobalt alloy and NiMnGa martensite single-crystals". Sensors and Actuators A: Physical 264 (wrzesień 2017): 165–71. http://dx.doi.org/10.1016/j.sna.2017.08.003.

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18

Kabani, R., M. Terada, A. Roshko i J. S. Moodera. "Magnetic properties of NiMnSb films". Journal of Applied Physics 67, nr 9 (maj 1990): 4898–900. http://dx.doi.org/10.1063/1.344724.

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19

Van Roy, W., J. De Boeck, B. Brijs i G. Borghs. "Epitaxial NiMnSb films on GaAs(001)". Applied Physics Letters 77, nr 25 (18.12.2000): 4190–92. http://dx.doi.org/10.1063/1.1334356.

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20

Wen, Zhenchao, Zhiyong Qiu, Sebastian Tölle, Cosimo Gorini, Takeshi Seki, Dazhi Hou, Takahide Kubota, Ulrich Eckern, Eiji Saitoh i Koki Takanashi. "Spin-charge conversion in NiMnSb Heusler alloy films". Science Advances 5, nr 12 (grudzień 2019): eaaw9337. http://dx.doi.org/10.1126/sciadv.aaw9337.

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Half-metallic Heusler alloys are attracting considerable attention because of their unique half-metallic band structures, which exhibit high spin polarization and yield huge magnetoresistance ratios. Besides serving as ferromagnetic electrodes, Heusler alloys also have the potential to host spin-charge conversion. Here, we report on the spin-charge conversion effect in the prototypical Heusler alloy NiMnSb. An unusual charge signal was observed with a sign change at low temperature, which can be manipulated by film thickness and ordering structure. It is found that the spin-charge conversion has two contributions. First, the interfacial contribution causes a negative voltage signal, which is almost constant versus temperature. The second contribution is temperature dependent because it is dominated by minority states due to thermally excited magnons in the bulk part of the film. This work provides a pathway for the manipulation of spin-charge conversion in ferromagnetic metals by interface-bulk engineering for spintronic devices.
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21

Vovk, Andriy, Minghui Yu, Leszek Malkinski, Charles O’Connor, Zhenjun Wang, Eden Durant, Jinke Tang i Vladimir Golub. "Magnetic and transport properties of NiMnAl thin films". Journal of Applied Physics 99, nr 8 (15.04.2006): 08R503. http://dx.doi.org/10.1063/1.2166609.

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22

Caballero, J. A., W. J. Geerts, J. R. Childress, F. Petroff, P. Galtier, J. U. Thiele i D. Weller. "Magneto-optical properties of sputter-deposited NiMnSb thin films". Applied Physics Letters 71, nr 16 (20.10.1997): 2382–84. http://dx.doi.org/10.1063/1.120035.

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23

Öner, Y., C. S. Lue, Joseph H. Ross, K. D. D. Rathnayaka i D. G. Naugle. "Thermomagnetic hysteresis effects in NiMn and NiMnPd thin films". Journal of Applied Physics 89, nr 11 (czerwiec 2001): 7044–46. http://dx.doi.org/10.1063/1.1362650.

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24

Branford, W. R., S. B. Roy, S. K. Clowes, Y. Miyoshi, Y. V. Bugoslavsky, S. Gardelis, J. Giapintzakis i L. F. Cohen. "Spin polarisation and anomalous Hall effect in NiMnSb films". Journal of Magnetism and Magnetic Materials 272-276 (maj 2004): E1399—E1401. http://dx.doi.org/10.1016/j.jmmm.2003.12.913.

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25

Caballero, J. A., W. J. Geerts, F. Petroff, J. U. Thiele, D. Weller i J. R. Childress. "Magnetic and magneto-optical properties of NiMnSb thin films". Journal of Magnetism and Magnetic Materials 177-181 (styczeń 1998): 1229–30. http://dx.doi.org/10.1016/s0304-8853(97)00627-6.

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26

Ristoiu, D., J. P. Nozières i L. Ranno. "Epitaxial NiMnSb thin films prepared by facing targets sputtering". Journal of Magnetism and Magnetic Materials 219, nr 1 (sierpień 2000): 97–103. http://dx.doi.org/10.1016/s0304-8853(00)00003-2.

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27

Borca, C. N., Takashi Komesu, Hae-kyung Jeong, P. A. Dowben, D. Ristoiu, Ch Hordequin, J. Pierre i J. P. Nozières. "Effective surface Debye temperature for NiMnSb(100) epitaxial films". Applied Physics Letters 77, nr 1 (3.07.2000): 88–90. http://dx.doi.org/10.1063/1.126886.

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28

Wang, Hai Bo, Li Ma i Wei Cai. "Effect of Annealing Conditions on Microstructure Evolution of NiMnFeGa Shape Memory Thin Film". Advanced Materials Research 150-151 (październik 2010): 1745–49. http://dx.doi.org/10.4028/www.scientific.net/amr.150-151.1745.

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The microstructure evolution of sputtered polycrystalline Ni54.75Mn13.25Fe7Ga25 ferromagnetic shape memory thin film annealed under different conditions is studied. Microstructure of different annealed films was studied using Transmission Electron Microscope (TEM) and corresponding selected area electron diffraction (SAED) patterns. The result shows that in the microstructure of as-deposited Ni54.75Mn13.25Fe7Ga25 free-standing film, after annealed at 1073 K for different time, the crystalline grain grows up with the increase of the annealing time. By analysis of the SAED patterns, the structure of the thin films change from face-centered cubic austenite to orthorhombic structure martensite compared between the film annealed at 1073 K for 10 mins, 1hr, 4 hrs, and 24 hrs respectively. It indicated that the heat treatment is an effective method of crystallizing behavior for the thin film.
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29

Srivastava, Vijay Kumar, Saurabh Srivastava i Ratnamala Chatterjee. "Structural and Magnetic Properties of Off-Stochiometric Ni-Mn-Al Heusler Alloy Thin Film". Solid State Phenomena 136 (luty 2008): 139–44. http://dx.doi.org/10.4028/www.scientific.net/ssp.136.139.

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The initials results on growth and structural properties of Ni-Mn-Al full Heusler alloy thin films on silicon substrates deposited by RF magnetron sputtering is reported in this paper. Good crystallinity in the film is obtained by optimizing the sputtering parameters. The as-deposited film was post-annealed in vacuum in the temperature range between 150 °C, 250 °C and 450 °C for 60 min. It is observed that as deposited film shows nanocrystalline in nature. The film annealed at 450 °C shows L21 structure. The magnetic properties of the NiMnAl films at room temperature are measured by vibrating sample magnetometer [VSM]. It is found that the annealed samples shows clear saturating loop whereas the as prepared film is paramagnetic in nature.
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30

ÖNER, Y., M. ÖZDEMİR, B. AKTAŞ i E. A. HARRIS. "Spin-Wave Resonance in Amorphous NiMn and NiMnPt Alloy Films". Turkish Journal of Physics 20, nr 1 (1.01.1996): 96. http://dx.doi.org/10.55730/1300-0101.2681.

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31

Borca, C. N., D. Ristoiu, H.-K. Jeong, Takashi Komesu, A. N. Caruso, J. Pierre, L. Ranno, J. P. Nozières i P. A. Dowben. "Epitaxial growth and surface properties of half-metal NiMnSb films". Journal of Physics: Condensed Matter 19, nr 31 (4.07.2007): 315211. http://dx.doi.org/10.1088/0953-8984/19/31/315211.

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32

Giapintzakis, J., C. Grigorescu, A. Klini, A. Manousaki, V. Zorba, J. Androulakis, Z. Viskadourakis i C. Fotakis. "Pulsed-laser deposition of NiMnSb thin films at moderate temperatures". Applied Surface Science 197-198 (wrzesień 2002): 421–25. http://dx.doi.org/10.1016/s0169-4332(02)00353-7.

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33

Schlomka, J. P., W. Press, M. R. Fitzsimmons, M. Lütt i I. Grigorov. "Structural and magnetic properties of ion beam sputtered NiMnSb films". Physica B: Condensed Matter 248, nr 1-4 (czerwiec 1998): 140–45. http://dx.doi.org/10.1016/s0921-4526(98)00221-x.

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34

Branford, W. R., S. K. Clowes, M. H. Syed, Y. V. Bugoslavsky, S. Gardelis, J. Androulakis, J. Giapintzakis i in. "Large positive magnetoresistance in nonstoichiometric NiMnSb thin films on silicon". Applied Physics Letters 84, nr 13 (29.03.2004): 2358–60. http://dx.doi.org/10.1063/1.1691172.

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35

Hong, J., J. A. Caballero, W. Geerts, J. R. Childress i S. J. Pearton. "Dry and Wet Etch Processes for NiMnSb Heusler Alloy Thin Films". Journal of The Electrochemical Society 144, nr 10 (1.10.1997): 3602–8. http://dx.doi.org/10.1149/1.1838055.

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36

Giapintzakis, J., C. Grigorescu, A. Klini, A. Manousaki, V. Zorba, J. Androulakis, Z. Viskadourakis i C. Fotakis. "Low-temperature growth of NiMnSb thin films by pulsed-laser deposition". Applied Physics Letters 80, nr 15 (15.04.2002): 2716–18. http://dx.doi.org/10.1063/1.1469211.

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37

Caballero, J. A., Y. D. Park, A. Cabbibo, J. R. Childress, F. Petroff i R. Morel. "Deposition of high-quality NiMnSb magnetic thin films at moderate temperatures". Journal of Applied Physics 81, nr 6 (15.03.1997): 2740–44. http://dx.doi.org/10.1063/1.363977.

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38

Ma, Jia-Lin, Hai-Long Wang, Xing-Min Zhang, Shuai Yan, Wen-Sheng Yan i Jian-Hua Zhao. "Epitaxial Growth and Magnetic Properties of NiMnAs Films on GaAs Substrates". Chinese Physics Letters 36, nr 1 (styczeń 2019): 017501. http://dx.doi.org/10.1088/0256-307x/36/1/017501.

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39

Takanashi, K\=oki, Hiroyasu Fujimori, Masuhiro Shoji i Aisaku Nagai. "Preparation and Magneto-Optical Kerr Effect of PtMnSb/NiMnSb Multilayer Films". Japanese Journal of Applied Physics 26, Part 2, No. 8 (20.08.1987): L1317—L1319. http://dx.doi.org/10.1143/jjap.26.l1317.

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40

Heinrich, B., G. Woltersdorf, R. Urban, O. Mosendz, G. Schmidt, P. Bach, L. Molenkamp i E. Rozenberg. "Magnetic properties of NiMnSb(001) films grown on InGaAs/InP(001)". Journal of Applied Physics 95, nr 11 (czerwiec 2004): 7462–64. http://dx.doi.org/10.1063/1.1687274.

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41

Bhandary, Nimai, Aadesh P. Singh, Pravin P. Ingole i Suddhasatwa Basu. "Enhanced photoelectrochemical performance of electrodeposited hematite films decorated with nanostructured NiMnOx". RSC Advances 6, nr 42 (2016): 35239–47. http://dx.doi.org/10.1039/c6ra03984g.

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In the present work, we report a novel nickel-manganese oxide (NiMnOx) decorated hematite (α-Fe2O3) photoanode for efficient water splitting in a photoelectrochemical (PEC) cell.
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42

Ristoiu, D., J. P. Nozières, C. N. Borca, T. Komesu, H. k. Jeong i P. A. Dowben. "The surface composition and spin polarization of NiMnSb epitaxial thin films". Europhysics Letters (EPL) 49, nr 5 (1.03.2000): 624–30. http://dx.doi.org/10.1209/epl/i2000-00196-9.

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43

Apostolov, A. T., I. N. Apostolova i J. M. Wesselinowa. "The magnetoelectric effect in thin films of ferromagnetic semiconductor La2 NiMnO6". physica status solidi (b) 251, nr 6 (19.04.2014): 1219–24. http://dx.doi.org/10.1002/pssb.201350307.

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44

Kirthika, P., i N. Thangaraj. "Modulating the hardness and magnetic property of NiMnWP by an organosulphur additive for magnetic storage applications". Digest Journal of Nanomaterials and Biostructures 16, nr 3 (lipiec 2021): 855–62. http://dx.doi.org/10.15251/djnb.2021.163.855.

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In this present investigation, we subjected a user friendly electrodeposition method to develop an NiMnWP thin film for magnetic storage devices .The key point of the research work is to enrich the mechanical and magnetic property by varying the deposition time, bath temperature and adding an organic additive. The NiMnWP magnetic thin film without and with thiourea of 2gm/l is developed and their characteristics were studied. The XRD peak confirms the presence of NiWP with an End centered monoclinic structure with the plane (820),(622) and manganese with (422) cubic plane. The crystallite size varies from 18.58 to 16.84 nm without thiourea and 19.83 to 12.33nm with thiourea. The hardness is found to be enhanced due to the addition of thiourea from 102 to 128, where as the other from 91.4 to 101.8.There is an considerable amount of enhancement in magnetization from 4.53 to 22.304x10-3 emu and retentivity from 1.2500 to 6.34x10-3 emu due to the addition of thiourea. From our experimental work analysis a better magnetic thin films were obtained, to be used in MEMS and magnetic storage devices.
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45

Caminat, P., E. Valerio, M. Autric, C. Grigorescu i O. Monnereau. "Double beam pulse laser deposition of NiMnSb thin films at ambient temperature". Thin Solid Films 453-454 (kwiecień 2004): 269–72. http://dx.doi.org/10.1016/j.tsf.2003.11.146.

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