任盛源 / 研究員

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連絡資訊

學歷

  • 美國卡內基美倫大學物理系博士

秘書

李馥芳 / 886-2-2789-8985

研究興趣

磁性材料之電子傳輸 ; 磁伸縮與應用 ; 磁區及磁壁 ; 磁異方性 ;

經歷

  • 本所副研究員

學術著作

期刊論文

  • [1]     S. U. Jen, H. Sun, H. P. Chiang, et. al., 2016, “Optoelectronic properties and the electrical stability of Ga-dopes ZnO thin films prepared via radio frequency sputtering”, Materials, 9 987 - 997. (SCI) (IF: 2.728; SCI ranking: 23.2%)

  • [2]     S. U. Jen*, W. C. Cheng, Y. C. Lin, Y. Z. Chen, and I. S. Golovin, 2016, “Magnetic and magneto-mechanical properties of Fe55Co19Ga26 alloy”, MATERIALS LETTERS, 182 72 - 74. (SCI) (IF: 2.437; SCI ranking: 25.5%,26.9%)

  • [3]     S. U. Jen*, Y. Y. Lo, and L. W. Pai, 2016, “Temperature dependence of mechanical properties of the Fe81Ga19 (Galfenol) alloy”, JOURNAL OF PHYSICS D-APPLIED PHYSICS, 49, 145004 - 09. (SCI) (IF: 2.772; SCI ranking: 21.4%)

  • [4]     S. U. Jen, W. C. Cheng, and F. L. Chiang, 2015, “Structural, magneto-mechanical, and damping properties of slowly-cooled polycrystalline Fe81Ga19 alloy”, JOURNAL OF ALLOYS AND COMPOUNDS, 651, 544 - 550. (SCI) (IF: 3.014; SCI ranking: 21.4%,36.1%,5.5%)

  • [5]     S. C. Chen, T. Y. Kuo, S. U. Jen*, H. P. Chiang, W. Y. Liu, and C. H. Wang, 2015, “Effect of copper content on the electrical stability of nickel oxide films”, THIN SOLID FILMS, 584, 238-242. (SCI) (IF: 1.761; SCI ranking: 42.8%,56.7%,33.3%,45%)

  • [6]     C. C. Liu, S. U. Jen, Y. C. Lin, C. H. Lai, S. C. Liao, and C. H. Chien, 2015, “Magnetostriction and complex permeability of [Fe62Co19Ga19/Py]5/glass multilayered films”, JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 385, 88-92. (SCI) (IF: 2.357; SCI ranking: 34.3%,28.8%)

  • [7]     C. Y. Tsay, Y. H. Lin, S. U. Jen, 2015, “Magnetic, magnetostrictive, and AC impedance properties of manganese substituted cobalt ferrites”, CERAMICS INTERNATIONAL, 41, 5531-5536. (SCI) (IF: 2.758; SCI ranking: 11.1%)

  • [8]     S. U. Jen, C. C. Liu, H. R. Lin, and S. H. Chou, 2014, “Frequency dependence of the magnetostrictive phenomenon in Metglas 2605SA1 ribbon: A minor-loop case”, AIP Advances, 4, 127140. (SCI) (IF: 1.444; SCI ranking: 57.2%,71.1%,56.6%)

  • [9]     S. U. Jen, C. C. Liu, and S. T. Chen, 2014, “Magnetostriction measurement of a ferromagnetic thin film using digital holographic microscope”, IEEE TRANSACTIONS ON MAGNETICS, 50(11), 6000404-408. (SCI) (IF: 1.277; SCI ranking: 62.8%,49.8%)

  • [10]     S. U. Jen and C. C. Liu, 2014, “Magneto-elastic and magnetic domain properties Fe81Ga19/Si(100) films”, J. Appl. Phys., 115, 013909-013914. (SCI) (IF: 2.101; SCI ranking: 32.4%)

  • [11]     1. C. C. Liu, S. U. Jen, J. Y. Juang, and C. K. Lo, 2013, “Ferromagnetic resonance properties of Fe81-XNiXGa19/Si(100) and Fe81-YNiYGa19/glass films”, Journal of Alloys and Compounds, 562, 111. (SCI) (IF: 3.014; SCI ranking: 21.4%,36.1%,5.5%)

  • [12]     H. W. Chinag, et. al., and S. U. Jen, 2013, “High quality multiferroic BiFeO3 films prepared by pulsed laser deposition on glass substrates at reduced temperatures”, JOURNAL OF APPLIED PHYSICS, 113, 17D917. (SCI) (IF: 2.101; SCI ranking: 32.4%)

  • [13]     C. C. Liu, et. al., and S. U. Jen, 2013, “Magnetic domain studies of La0.7Sr0.3MnO3 film deposited on SrLaAlO3(001) substrate”, JOURNAL OF PHYSICS D-APPLIED PHYSICS, 46, 255001. (SCI) (IF: 2.772; SCI ranking: 21.4%)

  • [14]     S. U. Jen, C. C. Liu, and J. Y. Juang, 2013, “Magneto-elastic and mechanical properties of Fe81-XNiXGa19/Si(100) and Fe81-YNiYGa19/glass films”, Advanced Materials Research, 705, 66. (EI)

  • [15]     H. W. Chinag, et. al., and S. U. Jen,, 2013, “Photovoltaic property of sputtered BiFeO3 thin films”, JOURNAL OF ALLOYS AND COMPOUNDS, 574, 402. (SCI) (IF: 3.014; SCI ranking: 21.4%,36.1%,5.5%)

  • [16]     H. L. Huang, C. F. Chou, S. H. Shiao, Y. C. Liu, J. J. Huang, S. U. Jen, and H. P. Chiang, 2013, “Surface plasmon-enhanced photoluminescence of DCJBT by using silver nanoparticle arrays”, OPTICS EXPRESS, 21, A901. (SCI) (IF: 3.148; SCI ranking: 15.6%)

  • [17]     S. U. Jen, S. P. Wang, W. C. Chang, and H. W. Chang, 2012, “Magnetostriction and delta-E effect of melt-spun (Fe81-xCoxGa19)80B20 ribbons”, JOURNAL OF APPLIED PHYSICS, 112, 053904. (SCI) (IF: 2.101; SCI ranking: 32.4%)

  • [18]     H. W, Chang, C. W. Shih, P. H. Chen, C. R. Wang, S. U. Jen, and H. Y. Lee, 2012, “Sputter-prepared (001) BiFeO3 thin films with ferromagnetic L1o-FePt(001) electrode on glass substrates”, Nanoscale Research Letters, 7, 435. (SCI) (IF: 2.584; SCI ranking: 25.5%,23.4%,45.8%)

  • [19]     H. W. Chang*, F. T. Yuan, C. W, Shih, W. L. Li, P. H. Chen, W. C. Chang, S. U. Jen, 2012, “Exchange bias in sputtered FM/BiFeO3 thin films”, JOURNAL OF APPLIED PHYSICS, 111, 07B105-107. (SCI) (IF: 2.101; SCI ranking: 32.4%)

  • [20]     S. U. Jen*, T. L. Tsai, 2012, “Optimization of sputter deposition parameters for magnetostrictive Fe62Co19Ga19/Si(100) films”, JOURNAL OF APPLIED PHYSICS, 111, 07A939-941. (SCI) (IF: 2.101; SCI ranking: 32.4%)

  • [21]     H. W. Chang*, F. T. Yuan, C. W. Shih, C. R. Wang, W. C. Chang, S. U. Jen, 2012, “Sputter-prepared BiFeO(001) films on L1o FePt(001)/glass substrates”, JOURNAL OF APPLIED PHYSICS, 111, 07D918-920. (SCI) (IF: 2.101; SCI ranking: 32.4%)

  • [22]     S. U. Jen*, T. Y. Chou, and C. K. Lo, 2011, “Impedance of nanometer thickness ferromagnetic Co40Fe40B20 films”, Nanoscale Research Letters, 6, 468-473. (SCI) (IF: 2.584; SCI ranking: 25.5%,23.4%,45.8%)

  • [23]     T. L. Tsai*, S. U. Jen, and P. C. Kuo, 2011, “High temperature magnetic properties of Fe81-xCoxGa19/Si(100) films”, JOURNAL OF APPLIED PHYSICS, 109(7), 07E325-1. (SCI) (IF: 2.101; SCI ranking: 32.4%)

  • [24]     S. U. Jen*, T. L. Tsai, M. S. Li, P. C. Kuo, and M. Y. Lin, 2011, “Magnetic properties of Fe62Co19Ga19 films deposited on Si(100) substrates”, JOURNAL OF APPLIED PHYSICS, 109(7), 07A920-1. (SCI) (IF: 2.101; SCI ranking: 32.4%)

  • [25]     Y. T. Chen*, Y. C. Lin, S. U. Jen, J. Y. Tseng, and Y. D. Yao, 2011, “Effect of Ta seed layer on crystalline structure and magnetic properties in an exchange-biased Co/IrMn system”, JOURNAL OF ALLOYS AND COMPOUNDS, 509, 5587-5590. (SCI) (IF: 3.014; SCI ranking: 21.4%,36.1%,5.5%)

  • [26]     S. U. Jen*, H. P. Chiang, H. D. Liu, C. C. Chang, 2010, “Rotation-field annealing effect on magnetoimpedance of Co-based amorphous ribbons”, Journal of Alloys and Compounds, 208, 528-531. (SCI) (IF: 3.014; SCI ranking: 21.4%,36.1%,5.5%)

  • [27]     S. U. Jen*, T. L. Tsai, P. C. Kuo, W. L. Chi, and W. C. Cheng, 2010, “Magnetostrictive and structural properties of FeCoGa films”, Journal of Applied Physics, 107, 0139141-4. (SCI) (IF: 2.101; SCI ranking: 32.4%)

  • [28]     S. U. Jen*, T. L. Tsai, and C. C. Liu, 2009, “Magnetic properties of Fe-rich Fe-V alloy films”, Journal of Applied Physics, 106, 013901. (SCI) (IF: 2.101; SCI ranking: 32.4%)

  • [29]     S. U. Jen*, P. J. Wang, Y. C. Tseng, and H. P. Chang, 2009, “Planar Hall effect of Permalloy films on Si(111), Si(100), and glass substrates”, Journal of Applied Physics, 105, 07E903. (SCI) (IF: 2.101; SCI ranking: 32.4%)

  • [30]     Y. T. Chen, S. U. Jen*, Y. D. Yao, J. M. Wu, J. H. Liao, and T. B. Wu, 2008, “Exchange biasing observed in the Co/Ir20Mn80 system”, Journal of Alloys and Compounds, 448, 59. (SCI) (IF: 3.014; SCI ranking: 21.4%,36.1%,5.5%)

  • [31]     Y. T. Chen*, S. U. Jen, T. L. Tsai, C. Y. Huang, and Y. D. Yao, 2008, “Magnetostriction and tunneling magnetoresistance of CoFeB/AlOx/Co/IrMn junctions”, Journal of Applied Physics, 103, 07A901. (SCI) (IF: 2.101; SCI ranking: 32.4%)

  • [32]     S. U. Jen*, Y. T. Chen, T. L. Tsai, and Y. C. Lin, 2008, “Magnetostrictive strains in polycrystalline FePdRh alloy”, Journal of Applied Physics, 103, 07B902. (SCI) (IF: 2.101; SCI ranking: 32.4%)

  • [33]     S. U. Jen*, Y. T. Chen, N. T. Yang, and W. C. Cheng, 2008, “Mechanical and structural properties of Permalloy films on glass and/or Si(111) substrate”, Applied Physics A, 94, 431.

  • [34]     Y. T. Chen, S. U. Jen*, A. C. Sun, and Y. D. Yao, 2007, “In search of zero magnetostrictive CoFeB/AlOx/Co junctions”, Solid State Commun., 144, 422. (SCI) (IF: 1.458; SCI ranking: 64.2%)

  • [35]     S. U. Jen*, T. C. Wu, C. M. Wong, Y. T. Chen, H. P. Chiang, 2007, “In-situ magnetic deposition field effect on sheet resistance of Permalloy films”, Thin Solid Films, 515, 7382. (SCI) (IF: 1.761; SCI ranking: 42.8%,56.7%,33.3%,45%)

  • [36]     Y. C. Lin*, H. T. Lee, S. U. Jen, and Y. T. Chen, 2007, “Magnetic structure and magnetic property of an Fe-Pd-Rh alloy”, J. Appl. Phys., 101, 095N514. (SCI) (IF: 2.101; SCI ranking: 32.4%)

  • [37]     J. H. Liao*, T. B. Wu, S. T. Ho, Y. T. Chen, S. U. Jen, and Y. D. Yao, 2007, “Near-interface magnetotransport in La0.75Sr0.25MnO3 epitaxial films on SrTiO3 substrate”, J. Phys. D: Appl. Phys., 40, 4586.

  • [38]     S. U. Jen*, 2007, “Stress and Young’s modulus properties of some metallic thin films”, in Adhesion Aspects of Thin Films , edited by K. L. Mittal, VSP, Utrecht, Vol. 3, p.11..

  • [39]     Y. T. Chen, S. U. Jen*, Y. D. Yao, and J. M. Wu, 2007, “The exchange-biasing in the Si(100)/Ta/Co/IrMn/Ta system”, J. Magn. Magn. Mater., 310, 2307.

  • [40]     S.U.Jen, 2006, “Interfacial effects on magnetostriction of CoFeB/AlOx/Co junction”, Appl. Phys. Lett., 88, 1-2. (SCI) (IF: 3.142; SCI ranking: 19.3%)

  • [41]     S.U.Jen, 2006, “Magnetic and electrical properties of amorphous CoFeB films”, J. Appl. Phys., 99, 1-2. (SCI) (IF: 2.101; SCI ranking: 32.4%)

  • [42]     S.U.Jen, 2006, “Magnetic properties of face-centered cubic Co films”, IEEE Trans. MAG-42, 278, 1-2.

  • [43]     S.U.Jen, 2006, “Magnetic, structural and electrical properties of ordered and disordered Co50Fe50 films”, J. Magn. Magn. Mater., 304, 1-2. (SCI) (IF: 2.357; SCI ranking: 34.3%,28.8%)

  • [44]     S.U.Jen, 2006, “Many-body Green's function theory of ferromagnetic films with arbitrarily arranged single-ion”, Phys. Rev. B, 73, 1-2. (SCI) (IF: 3.718; SCI ranking: 23.9%)

  • [45]     Jen SU and Wu TC, 2005, “Young's modulus and hardness of Pd thin films”, THIN SOLID FILMS, 492(1-2), 166-172. (SCI) (IF: 1.761; SCI ranking: 42.8%,56.7%,33.3%,45%)

  • [46]     Jen SU and Chen KC, 2005, “Enhancement of polar Kerr effect by forming Au nanoparticles on Ni surface”, JOURNAL OF APPLIED PHYSICS, 97((10): Art. No. 10M311 Part 3). (SCI) (IF: 2.101; SCI ranking: 32.4%)

  • [47]     Jen SU and Lin CC, 2005, “Magnetostriction and Young's modulus of [Fe15Ni85/Fe25Ni75] multilayers”, THIN SOLID FILMS, 471(1-2), 218-223. (SCI) (IF: 1.761; SCI ranking: 42.8%,56.7%,33.3%,45%)

  • [48]     Jen SU, Wu TC and Lin CC et al., 2004, “Anisotropic magnetoresistance and magnetostriction of [Fe15Ni85/Fe25Ni75] and [Co35Ni65/Fe25Ni75] multilayers”, SOLID STATE COMMUNICATIONS, 132(3-4), 259-262. (SCI) (IF: 1.458; SCI ranking: 64.2%)

  • [49]     Jen SU, Shieh CH and Chiang HP, 2004, “Perpendicular anisotropy and magneto-optical Kerr effect of (Ni/Pd) multilayers (vol 65, pg 1035, 2004)”, JOURNAL OF PHYSICS AND CHEMISTRY OF SOLIDS, 65(10), 1757. (SCI) (IF: 2.048; SCI ranking: 42.3%,47.8%)

  • [50]     Jen SU, Shieh CH and Chiang HP, 2004, “Perpendicular anisotropy and magneto-optical Kerr effect of (Ni/Pd) multilayers”, JOURNAL OF PHYSICS AND CHEMISTRY OF SOLIDS, 65(6), 1035-1038. (SCI) (IF: 2.048; SCI ranking: 42.3%,47.8%)

  • [51]     Jen SU and Lee JY, 2004, “Method of easy-axis determination of uniaxial magnetic films by vector vibrating sample magnetometer”, JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 271(2-3), 237-245. (SCI) (IF: 2.357; SCI ranking: 34.3%,28.8%)

  • [52]     Jen SU, Yu CC and Liu CH et al., 2003, “Piezoresistance and electrical resistivity of Pd, Au, and Cu films”, THIN SOLID FILMS, 434(1-2), 316-322. (SCI) (IF: 1.761; SCI ranking: 42.8%,56.7%,33.3%,45%)

  • [53]     Jen SU, Wu TC and Liu CH, 2003, “Piezoresistance characteristics of some magnetic and non-magnetic metal films”, JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 256(1-3), 54-62. (SCI) (IF: 2.357; SCI ranking: 34.3%,28.8%)

發現與突破

(1) 西元年:2010
研究人員(中):任盛源
研究人員(英):JEN, SHIEN-UANG
研究成果名稱(中):鐵鈷鎵膜之磁致伸縮
研究成果名稱(英):Magnetostriction of FeCoGa films
簡要記述(中):鐵鎵合金又稱為Galfenol合金,用以取代Terfenol合金。 本研究旨在以少量鈷取代鐵,並形成薄膜。 結果證明可大量提昇該膜材之磁致伸縮值及其場敏度,且居禮溫度亦獲增加(較佳之高溫穩定性)。 適於作微致動、微機電、感應器等器件。
主要相關著作:
S. U. Jen*, T. L. Tsai, P. C. Kuo, W. L. Chi, and W. C. Cheng, 2010, “Magnetostrictive and structural properties of FeCoGa films”, Journal of Applied Physics, 107, 0139141-4. (SCI) (IF: 2.101; SCI ranking: 32.4%)
個人資料維護 | 著作目錄維護同步更新 | 最後更新日期 : 2017-09-11
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