Fabrication of magnetic nanoparticles by ion-beam induced chemical vapor deposition (IBICVD) technique and its characterization by Lorentz TEM/HRTEM, AFM/MFM, and XMCD. Magnetoresistance (MR) studies. CoZrGd Hall sensor.Ion beam deposited NiFe/NixFe1-xO composite films and its characterization by SQUID magnetometry . Studies of the structure of solid surfaces and epitaxial growth of ultra thin films 

2002 PhD   Materials Science and Engineering, Stony Brook University, New York, USA

               Advisor: Professor Richard J. Gambino, IEEE fellow.

           Dissertation title: Structural and Magnetic Characterization of Ion Beam Deposited

               NiFe/NixFe1-xO Composite Films.

1994 MS    Materials Science and Engineering, National Taiwan University, Taipei, Taiwan.

1992 BS    Materials Science, Feng Chia University, Taichung, Taiwan. 

Spring 2003, Electronic Materials, Thin Film Processes.

Fall 2003, Magnetic Materials, Vacuum Technology

2002-2003 Toyota Technological Institute, Information Storage Materials Laboratory Nagoya, Japan

                  (with Professor Takao Suzuki, IEEE fellow).

2001-2002 Brookhaven National Laboratory. Materials and Chemical Sciences Division Upton, New York, USA

                  (with Dr. Laura H. Lewis).

1999-2002 Magneto-optic Lab. Materials Science Dept., Stony Brook University, New York, USA  

               (Advisor: Professor Richard J. Gambino, IEEE fellow).

1998-1999 Surface Sciences Lab. Materials Science Dept., Stony Brook University, New York, USA

                  (with Prof. Franco Jona, APS fellow).

1997-1998 Academia Sinica. Institute of Atomic and Molecular Sciences, Taipei, Taiwan (with Dr. Huang-Cheng Chang).

1992-1994 National Taiwan University. Materials Science and Eng. Dept., Taipei Taiwan (Advisor: Professor Chun Chen).

1991-1992 Feng Chia University. Materials Science Dept., Taichung, Taiwan (with Professor T.-H. Ko).

1990          Ta-Chung Steel Inc. (Ming-Chien Branch). Summer Intern, Quality analysis Division

(A)期刊論文

2023

1.     R. Yadav, A. Bake, W. T. Lee, Y.-K. Liu, D. Mitchell, X.-R. Yang, D. L. Cortie, K.-W. Lin*, and C. W. Leung, 2023, ”Interfacial spin structures in Pt/Tb3Fe5O12 bilayer films on Gd3Ga5O12 substrates”, Phys. Rev. Materials vol. 7.124407.

2.     D. Markó, R. Cheenikundil, J. Bauer, K. Lenz, W.-C. Chuang, K.-W. Lin, J.-C. Wu, M. d’Aquino, R. Hertel, and D. S. Schmool, 2023, “Interpretation of Spin-Wave Modes in Co/Ag Nanodot Arrays Probed by Broadband Ferromagnetic Resonance”, Phys. Rev. Applied vol. 20, 024059.

2022

1.     M. Benini, G. Allodi, A. Surpi, A. Riminucci, K.-W. Lin, S. Sanna, V. A. Dediu, and I. Bergenti, 2022, “In-depth NMR investigation of the magnetic hardening in Co thin films induced by the interface with molecular layers”, Adv. Mater. Interfaces vol. 9, 2201394.

2.     S. S. Syu, M. G. Krishna, R. Yadav, and K.-W. Lin*, 2022, “Design of the Stable Homogeneous Magnetic Field Calibration Device Generated by the Circular Coils”, IEEE Access vol. 10, 103401.

2021

1.     Sima Saeidi Varnoosfaderani, Emadelden Fouad, Antonio Ruotolo, and Ko-Wei Lin*, 2021, “Ion-beam modification of magnetism in thin films and multilayers”, Book chapter in: R. E. Camley, R. L. Stamps (Eds.), Solid State Physics, vol. 72, pp.159-188 (Academic Press, London, UK). ISBN: 978-0-323-91517-5.

2.     Ko-Wei Lin*, Chuenhou (Hao) Ouyang, Johan van Lierop, 2021, “Using Ion-Beam-Assisted Deposition and Ion Implantation for the Rational Control of Nanomagnetism in Thin Film and Nanostructured Systems”, Book chapter in: R. E. Camley, R. L. Stamps (Eds.), Solid State Physics, vol. 72, pp.189-233 (Academic Press, London, UK). ISBN: 978-0-323-91517-5.

3.     R. Yadav, M. Shepit, X. Li, K.-W. Lin*, J. van Lierop, and A. Ruotolo, 2021, “Photo-spin-voltaic effect in PtMn/Y3Fe5O12 thin films”, J. Phys.: Condens. Matter vol. 33, 095802.

4.     R. Yadav, C.-H. Wu, I.-F. Huang, X. Li, T.-H. Wu, and K.-W. Lin*, 2021, “Effects of Perpendicular Magnetic Field Annealing on the Structural and Magnetic Properties of [Co/Ni]2/PtMn Thin Films”, Magnetochemistry vol. 7, 38.

5.    D. Schmool, D. Marko, K.-W. Lin, A. Hierro-Rodriguez, C. Quiros, J. Diaz, L. Alvarez-Prado, and J.-C. Wu, 2021, “Ferromagnetic Resonance Studies in Magnetic Nanosystems”, Magnetochemistry vol. 7, 126.

2020

1.     X. Li, C.-H. Wu, Y.-J. Lee, Y.-T. Su, K.-W. Lin*, A. Ruotolo, P.K. Manna, J. van Lierop, 2020, “Correlating spin freezing and magnetic properties in [Co/Ni]n /PtMn multilayers”, J. Magn. Magn. Mater. vol. 508, 166690 (2020).

2.      X. Li, B. Alkadour, W.-C. Chuang, D. Marko, D. Schmool, J.-C. Wu, P. K. Manna, K.-W. Lin*, J. van Lierop, 2020, “Temperature evolution of the magnetic properties of Ag/Fe nanodot arrays”, App. Surf. Sci. vol. 513, 145578 (2020).

3.      G. L. Causer, D. L. Cortie, S. J. Callori, X. L. Wang, K.-W. Lin*, and F. Klose, 2020, “The magnetic interfacial properties of an exchange biased nanocrystalline Ni80Fe20/α-Fe2O3 bilayer studied by polarized neutron reflectometry and Monte Carlo simulation”, Jpn. J. Appl. Phys. vol. 59, SAAC03.

4.      S. J. Callori, T. Saerbeck, D. L. Cortie, and K.-W. Lin*, 2020, “Using polarized neutron reflectometry to resolve effects of light elements and ion exposure on magnetization”, Book chapter in: R. L. Stamps (Ed.), Solid State Physics, vol. 71, pp.73-116 (First Edition, Academic Press, London, UK). ISBN: 978-0-12-822023-8.

2019

1.      X. Li, C.-H. Wu, Y.-J. Lee, Y.-L. Huang, C.-L. Huang, J.-L. Tsai, T.-H. Wu, T. Chen, J. van Lierop, and K.-W. Lin*, 2019, “Enhanced Magnetic Properties in Ar+-Ion Beam-Bombarded MnBi Thin Films”, J. Electronic Mater. vol. 48, 1416.

2.      J. Zhang, G. L. Causer, X. Liu, M. Ionescu, S. Li, K.-W. Lin*, and F. Klose, 2019, “Controlling the magnetic reversal mechanism of exchange biased MnxOy/Ni80Fe20 bilayers through O+ implantation”, J. Magn. Magn. Mater. vol. 476, 437.

3.      T.A. Fasasi, A. Ruotolo, X.W. Zhao, C.W. Leung, K.W. Lin, 2019, “Photo-induced anomalous Hall effect in nickel thin films”, J. Magn. Magn. Mater. vol. 485, 82.

4.     R. D. Desautels, V. K. Paidi, J. W. Freeland, C. Shueh, K.-W. Lin, and J. van Lierop, 2019, “Interface-Engineered Control of Fe/Cu Thin Film Magnetism”, ACS Applied Electronic Mater. vol. 1, 2047.

2018

1.      I. Bergenti, P. K. Manna, C.-H. Lin, P. Graziosi, X. Liu, G. L. Causer, F. Liscio, A. Ruotolo, V. A. Dediu, J. van Lierop, F. Klose, and K.-W. Lin*, 2018, “Surface engineering with Ar+/O2+ ion beam bombardment: Tuning the electronic and magnetic behavior of Ni80Fe20/La0.7Sr0.3MnO3/SrTiO3(001) junctions”, J. Appl. Phys. vol. 124, 183903.

2.      Ko-Wei Lin*, Chuenhou (Hao) Ouyang, Johan van Lierop, 2018, “Using Ion-Beam-Assisted Deposition and Ion Implantation for the Rational Control of Nanomagnetism in Thin Film and Nanostructured Systems”, book chapter in: R. E. Camley, R. L. Stamps (Eds.), Solid State Physics, vol. 69, pp.1-45 (First Edition, Elsevier (Academic Press), London, UK). ISBN: 978-0-12-815242-3.

3.      Xu Li, Yu-Chi Chang, Jiann-Yeu Chen, Ko-Wei Lin*, Ryan D. Desautels, Johan van Lierop, Philip W.T. Pong, 2018, “Annealing effect of NiO/Co90Fe10 thin films: From bilayer to nanocomposite”, Phys. Lett. A vol. 382, 2886.

4.      Z. Li, X. Liu, G. L. Causer, K.-W. Lin, P. Pong, S. A. Holt, F. Klose, Y. Li, 2018, “Structural evolution of a Ni/NiOx based supercapacitor in cyclic charging-discharging: A polarized neutron and X-ray reflectometry study”, Electrochimica Acta vol. 290, 118.

5.      C. Zheng, S. Shan, C.-C. Chiu, E. Skoropata, R. D. Desautels, J. vsn Lierop, K.-W. Lin*, and P. W. T. Pong, 2018, “Effects of post-deposition magnetic field annealing on magnetic properties of NiO/Co90Fe10 bilayers”, Jpn. J. Appl. Phys. vol. 57, 01AC02.

6.      C.-H. Wu, C. Zheng, C.-C. Chiu, P. K. Manna, J. van Lierop, K.-W. Lin*, and P. W. T. Pong, 2018, “Structural and magnetic characterization of Mn/NiFe bilayers with ion-beam-assisted deposition”, Jpn. J. Appl. Phys. vol. 57, 01AC04.

2017

1.      G. L. Causer, P. K. Manna, C.-C. Chiu, J. van Lierop, M. Ionescu, K.-W. Lin*, F. Klose, 2017, “Modifying exchange bias effects of Mn/NiFe bilayers by in-situ Ar+ bombardment”, Nucl. Instr. and Meth. B vol. 409, 121.

2.  C. Zheng, W.-T. Lo, H.-F. Hsu, Y. Wroczynskyj, K.-W. Lin*, J. van Lierop, P. W. T. Pong, 2017, “Influence of different stoichiometric Cr-oxides created via oxygen ion-beam bombardment on the magnetism of the NiFe/Cr-oxide exchange-biased systems”, Phys. Lett. A vol. 381, 2715.

3.  X. Li, C. W. Leung, C.-C. Chiu, K.-W. Lin*, M. Chan, Y. Zhou, P. W. T. Pong, 2017, “Exchange bias study of sub-100 nm-diameter CoFeB/IrMn antidot and nanodot arrays fabricated by nanosphere lithography”, Phys. Lett. A vol. 381, 2709.

4.  X. Li, K.-W Lin*, W.-C. Yeh, R. D. Desautels, J. van Lierop, and P.W.T. Pong, 2017, “Modulated exchange bias in NiFe/CoO/α-Fe2O3 trilayers and NiFe/CoO bilayers”, Phys. Lett. A vol. 381, 524.

5.  S. J. Callori, K.-H. Chao, G. L. Causer, B. Nagy, L. F. Kiss, A. Sulyok, L. Bottyan, K.-W. Lin*, and F. Klose, 2017, “The structure and magnetism of Fe/FeO/Fe/FeV characterized by magnetometry and polarized neutron reflectometry”, IEEE. Magn. Lett. vol. 8, 4102205.

6.  Y.-C. Chang, X. Li, R. D. Desautels, K.-W. Lin*, J. van Lierop, A. Ruotolo, P. W.T. Pong, 2017, “Influence of Cr2O3 thickness on the magnetic properties of NiFe/ Cr2O3 bilayers deposited on SrTiO3 single-crystalline substrate”, Vacuum vol. 140, 126.

7.  A. S. Gouralnik, E. V. Pustovalov, K.-W. Lin, A. L. Chuvilin,
S. V. Chusovitina, S. A. Dotsenko, A. I. Cherednichenko, V. S. Plotnikov, V. A. Ivanov, V. I. Belokon, I. A. Tkachenko, and N. G. Galkin, 2017, “An approach to growth of Fe–Si multilayers with controlled composition profile-a way to exchange coupled thin films”, Nanotechnology vol. 28, 115303.

8.  X. Li, Y. Zhou, T. Zeng, K.-W. Lin, P. T. Lai, and Philip W. T. Pong, 2017, “Motion and Switching of Dual-Vortex Cores in Elliptical Permalloy Nanodisk Stimulated by a Gaussian Magnetic Field Pulse”, IEEE Trans. Magn. vol. 53, 4300106.

9.  X. Li, C.W. Leung, C.-C. Chiu, K.-W. Lin, Mansun Chan, Y. Zhou, Philip W.T. Pong, 2017, “Reduced magnetic coercivity and switching field in NiFeCuMo/Ru/NiFeCuMo synthetic-ferrimagnetic nanodots”, Appl. Surf. Science vol. 410, 479.

2016

1.  R. D. Desautels, C. Shueh, K.-W. Lin, J. W. Freeland, and J. van Lierop, 2016, “Enhanced Dynamical freezing, magnetic ordering, and the magnetocaloric effect in nanostructured Fe/Cu thin films”, Appl. Phys. Lett. vol. 108, 172410.

2.  P. K. Manna, E. Skoropata, Y.-W. Ting, K.-W. Lin, J. W. Freeland, and J. van Lierop, 2016, “Interface mixing and its impact on exchange coupling in exchange biased systems”, J. Phys.: Condens. Matter vol. 28, 486004.

3.  W. Uilhoon, S. J. Callori, D. L. Cortie, H.-C. Su, Y. Khaydukov, K.-W. Lin, and F. Klose, 2016, “Enhanced Magnetism in Field-Cooled [Ni80Fe20/Mn]3 Multilayers Studied Using Polarized Neutron Reflectometry”, J. Phys. Conf. Series vol. 711, 012005.

4.  X. Li, K.-W. Lin*, H.-T. Liang, P.-L. Liu, W.-C. Lo, D. L. Cortie, F. Klose, J. van Lierop, L. Li, Philip W.T. Pong, 2016, “The effects of post-deposition ion-beam bombardment with oxygen on the Co surface in modifying the magnetic properties of Co thin films”, Microelectronic Engineering vol. 152, 41.

2015

1.  R. D. Desautels, C. Shueh, K.-W. Lin, J. W. Freeland, and J. van Lierop, 2015, “Interface driven magnetic interactions in nanostructured thin films of iron nanocrystallites embedded in a copper matrix”, J. Appl. Phys. vol. 117, 17A723.

2.  F. J. T. Goncalves, R. D. Desautels, S. Su, T. Drysdale, J. van Lierop, K.-W. Lin, D. S. Schmool, and R. L. Stamps, 2015, “Anisotropy engineering using exchange bias on antidot templates”, AIP Advances vol. 5, 067101.

3.  X. Li, K.-W Lin*, H.-T. Liang, H.-F. Hsu, N. G. Galkin, Y. Wroczynskyj, J. van Lierop, and P.W.T. Pong, 2015, “The effects of interfacial interactions between Fe–O and Fe–Si induced by ion-beam bombardment on the magnetic properties of Si-oxide/Fe bilayers”, Nucl. Instr. and Meth. B vol. 365, 196.

4.  C. Zheng, K.-W. Lin*, C.-H. Liu, H.-F. Hsu, C. W. Leung, W.-H. Chen, T-H Wu, R. D. Desautels, J. van Lierop, and P.W.T Pong, 2015, “Microstructural and   magnetic characterization of ion-beam bombarded [Ni80Fe20-Cr]50 thin films”, Vacuum vol. 118, 85.

2014

1. C. Zheng, K.-W. Lin*, C.-H. Liu, H.-F. Hsu, C. W. Leung, W.-H. Chen, T-H Wu, R. D. Desautels, J. van Lierop, and P.W.T Pong, 2014, “Microstructural and magnetic characterization of ion-beam bombarded [Ni80Fe20-Cr]50 thin films”, Vacuum, in press (http://dx.doi.org/10.1016/j.vacuum.2014.10.011).

2. X. Li, K.-W Lin*, H.-Y. Liu, D.-H. Wei, G. J. Li, and P.W.T. Pong, 2014, “Effect of field cooling process and ion-beam bombardment on the exchange bias of NiCo/(Ni,Co)O bilayers”, Thin Solid Films vol. 570, 383.

3. C. Zheng, T.-C. Lan, C. Shueh, R. D. Desautels, J. van Lierop, K.-W. Lin*, and P. W. T. Pong, 2014, “Effect of ion-beam bombardment on microstructural and magnetic properties of Ni80Fe20/α-Fe2O3 thin films”, Jpn. J. Appl. Phys. vol. 53, 06JB03.

4. D. L. Cortie, Y.-W. Ting, P.-S. Chen, X. Tan, K.-W. Lin, and F. Klose, 2014, “Enhancement of the magnetic interfacial exchange energy at a specific interface in NiFe/CoO/Co trilayer thin films via ion-beam modification”, J. Appl. Phys., vol. 115, 073901.

5. K.-W. Lin*, T.-C. Lan, C. Shueh, E. Skoropata, and J. van Lierop, 2014, “Modification of the ferromagnetic anisotropy and exchange bias field of NiFe/CoO/Co trilayers through the CoO spacer thicknesses”, J. Appl. Phys., vol. 115, 17D717.

6. D. L. Cortie, C. Shueh, B.-C. Lai, P.W.T. Pong, J. van Lierop, F. Klose, and K.-W. Lin*, 2014, “The Effect of Single Crystalline Substrates and Ion-Beam Bombardment on Exchange Bias in Nanocrystalline NiO /Ni80Fe20 Bilayers”, IEEE Trans. Magn., vol. 50, 2300904.

7. T. Zeng, Y. Zhou, K. W. Lin, P. T. Lai, and P. W. T. Pong, 2014, “Thermally Excited Mag-Noise in Ferromagnetic Ring Structures”, IEEE Trans. Magn., vol. 50, 2300304.

8. C.-H. Hsiao, R. D. Desautels, J. van Lierop, K.-W. Lin, C.-C. Chi, S. Wang, T.-L. Lin, and H. Ouyang, 2014, “Exchange Bias Magnetism in Films of NiFe/(Ni,Fe)O Nanocrystallite Dispersions”, J. Appl. Phys., vol. 115, 17D724.

9. C. H. Hsiao, R. D. Desautels, S. Wang, K. W. Lin, H. Ouyang, and J. van Lierop, 2014, “Seeking to quantify the ferromagnetic-to-antiferromagnetic interface coupling resulting in exchange bias with various thin-film conformations”, J. Appl. Phys., vol. 116, 053911.

2013

1. C. Shueh, C.-H. Liu, E. Skoropata, T.-H. Wu, J. van Lierop, and K.-W. Lin*, 2013, ”Altering the exchange bias in Co90Fe10/(Co,Fe)O bilayers by changing the antiferromagnet's magnetism via interfacial ion-beam bombardment and different single crystalline MgO substrates”, J. Appl. Phys. vol. 113, 17D703.

2. K.-W. Lin*, C. Shueh, C-H. Liu, E. Skoropata, T.-H. Wu, and J. van Lierop, 2013, “Using different Mn-oxides to influence the magnetic anisotropy of FePt in bilayers with little change of the exchange bias field”, J. Appl. Phys. vol. 113, 17C104.

3. H.-C. Su, M.-J. Huang, H.-J. Lin, C.-H. Lee, C.-T. Chen, C.-H. Liu, H.-F. Hsu, K.-W. Lin, and J. van Lierop, 2013, “Connection between orbital moment enhancement and exchange bias in a [Ni80Fe20/Mn]3 multilayer”, Phys. Rev. B vol. 87, 014402.

4. G. J. Li, C. W. Leung, Y. C. Chen , J. H. Hsu , A. C. Sun , K. W. Lin* , P. W. T. Pong, 2013, “Effect of Oxygen Stoichiometry on Microstructural and Magnetic Properties of FePt/TaOx Bilayer Fabricated by Ion-Beam-Bombardment Deposition”, IEEE Trans. Magn., vol. 49, 3310.

5. C.-H. Liu, C. Shueh, T.-C. Lan, K.-W. Lin*, W.-C. Chen, T.-H. Wu, R. D. Desautels, and J. van Lierop, 2013, “Unusual exchange bias effects in NiFe/Mn thin films induced via ion-beam bombardment: superlattice vs. nanocomposite”, J. Korean Phys. Soc. vol. 62, 1958.

6. N. H. G. Grenda, P. A. Hyde, Y. S .Gui, M. P. Wismayer, J. D. A. Jung, C.-M. Hu, B. W. Southern, and K.-W. Lin, 2013, “Angular dependence of ferromagnetic resonance measurements in exchange coupled Ni80Fe20/NiO bilayers”, J. Phys. D: Appl. Phys. 46, 205002.

7. G. Li, C. W. Leung, C. Shueh, H.-F. Hsu, H.-R. Huang, K.-W. Lin*, P. T. Lai, P. W.T. Pong, 2013, “Exchange bias effects of NiFe/NiO bilayers through ion-beam bombardment on the NiO surface”, Surf. and Coatings Technol., vol. 228, S437.

8. G. Li, C. W. Leung, C. Shueh, Y.-J. Wu, K.-W. Lin*, A.-C. Sun, J.-H. Hsu, P. T. Lai, and P. W.T. Pong, 2013, “Oxygen-stoichiometry-dependent microstructural and magnetic properties of CoPt thin films capped with ion-beam-assisted deposited TiOx layers”, Surf. and Coatings Technol., vol. 228, S354.

9. G. Li, C. W. Leung, Y.-J. Wu, A.-C. Sun, J. H. Hsu, P. T. Lai, K.-W. Lin*, P. W. T. Pong, 2013, “Enhanced Structural and Magnetic Ordering of FePt/TiOx Bilayers by Ion-Beam Deposition and Annealing”, Microelectronic Engineering, vol. 110, 250.

10. G. Li, C. W. Leung, Y.-C. Chen, K.-W. Lin*, A.-C. Sun, J.H. Hsu, P. W. T. Pong, 2013, “Effect of annealing temperature on microstructure and magnetism of FePt/TaOx bilayer”, Microelectronic Engineering, vol. 110, 241.

2012

1.K.-W. Lin, M. Mirza, C. Shueh, H.-R. Huang, H.-F. Hsu, and J. van Lierop, 2012, “Tailoring interfacial exchange coupling with low-energy ion beam bombardment: Tuning the interface roughness”, Appl. Phys. Lett. vol. 100, 122409.

2.D. L. Cortie, K.-W. Lin, C. Shueh, H.-F. Hsu, X. L. Wang, M. James, H. Fritzsche, S. Bruck, and F. Klose, 2012, “Exchange bias in a nanocrystalline hematite/permalloy thin film investigated with polarized neutron reflectometry”, Phys. Rev. B vol. 86, 054408.

3.C.-H. Liu, C. Shueh, T.-C. Lan, K.-W. Lin*, W.-C. Chen, T.-H. Wu, R. D. Desautels, and J. van Lierop, 2012, “Unusual exchange bias effects in NiFe/Mn thin films induced via ion-beam bombardment: superlattice vs. nanocomposite”, J. Korean Phys. Soc., accepted for publication.

4.C. Shueh, D. L. Cortie, F. Klose, J. van Lierop, and K.-W. Lin*, 2012, “Modulating the Magneto-Crystalline Anisotropy and the Exchange Bias Field in CoFe/(Co,Fe)O Bilayers Using Ion-Beam Bombardment and Single Crystalline Substrates”, IEEE Trans. Magn. vol. 48, 2892.

5.C. Shueh, P.-S. Chen, D. Cortie, F. Klose, W.-C. Chen, T.-H. Wu, J. van Lierop, and K.-W. Lin*, 2012, “Correlating Uncompensated Antiferromagnetic Moments and Exchange Coupling Interactions in Interface Ion-Beam Bombarded Co90Fe10 / CoFe-Oxide Bilayers”,  Jpn. J. Appl. Phys. vol. 51, no. 11, in press.

6.D. L. Cortie, C. Shueh, P.-S. Chen, J.-F. Gao, F. Klose, J. van Lierop, and K.-W. Lin*, 2012, “Probing Exchange Bias Effects in CoO/Co bilayers with Pillar-like CoO Structures, Jpn. J. Appl. Phys., vol. 51, no. 11, in press.

7.G. Li, C. W. Leung, C. Shueh, H.-F. Hsu, H.-R. Huang, K.-W. Lin*, P. T. Lai, P. W.T. Pong, 2012, “Exchange bias effects of NiFe/NiO bilayers through ion-beam bombardment on the NiO surface”, Surf. and Coatings Technol., in press (doi:10.1016/j.surfcoat.2012.05.035).

8.G. Li, C. W. Leung, C. Shueh, Y.-J. Wu, K.-W. Lin*, A.-C. Sun, J.-H. Hsu, P. T. Lai, and P. W.T. Pong, 2012, “Oxygen-stoichiometry-dependent microstructural and magnetic properties of CoPt thin films capped with ion-beam-assisted deposited TiOx layers”, Surf. and Coatings Technol., in press (doi:10.1016/j.surfcoat.2012.05.103).

2011

1.An-Cheng Sun, H.-F. Hsu, H.-J. Wu, J.-H. Hsu, P. W. T. Pong, T. Suzuki, and K.-W. Lin, 2011,“Enhanced Structural and Magnetic Ordering of FePt/Mn-Oxide Bilayers by Ion-Beam Bombardment and Annealing”, IEEE , VOL. 47, NO. 3.

2.R. Magaraggia, M. Kostylev, R. L. Stamps, K.-W. Lin, J. -Y. Guo, K. -J. Yang, R. D. Desautels, and J. van Lierop, 2011, “ Characterization of Exchange-Biased CoFe/(Co,Fe)O Thin Films by Magnetometry and Ferromagnetic Resonance Techniques”, IEEE, VOL. 47, NO. 6.

3.G. J. Li, C. W. Leung, Z. Q. Lei, K.-W. Lin, P. T. Lai, Philip W. T. Pong, 2011, “Patterning of FePt for magnetic recording”, Thin Solid Films, vol. 519, 8307.

2010

1. H. Ouyang, Y.-H. Han, S.-C. Lo, C.-H. Su, Y.-R. Shiu, K.-W. Lin, R. D. Desautels, and J. van Lierop, 2010, “Tailoring perpendicular magnetic anisotropy in ultrathin Co/Pt multilayers coupled to NiO”, Phys. Rev.B, 81, 224412

2. K.-W. Lin, V. V. Volobuev, J.-Y. Guo, S.-H. Chung, H. Ouyang, and J. van Lierop, 2010 “[Pt/Co]4/NiO thin film perpendicular magnetic anisotropy dependence on Co layer thickness”, J. Appl. Phys., 107, 09D712

3.A.-C. Sun, Y.-J. Wu, Y.-L. Chiu, J.-H. Hsu, P. W. T. Pong, T. Suzuki, and K.-W. Lin*, 2010, “Microstructures and magnetism of different oxides separating FePt grains via ion-beam bombardment and annealing”, Jpn. J. Appl. Phys. vol. 49, 123001.

2009

1. K.-W. Lin, J.-Y. Guo, T.-J. Chen, H. Ouyang, D.-H.Wei, and J. van Lierop, 2009, “Correlating antiferromagnetic spin structures with ion-beam bombardment in exchange-biased NiFe/Mn bilayers”, J. Appl. Phys., 105, 07D710 (SCI).

2. C.-H. Su, S.-C. Lo, J. van Lierop, K.-W. Lin, and H. Ouyang, 2009, “The intermixing induced perpendicular magnetic anisotropy in ultrathin Co/Pt multilayers”, J. Appl. Phys., 105, 07C316 (SCI).

3. C.-H Su, S.-C. Lo, S.-H. Chiou, K.-W. Lin, W. Ouyang, and H. Ouyang, 2009, “The origin of perpendicular magnetic anisotropy in ultrathin [Pt/Co]4/NiO multilayers”, Electrochem. Solid-State Lett., 12, K1 (SCI).

4. K.-W. Lin, M.-R. Wei, and J.-Y. Guo, 2009, “Cooling field and ion-beam bombardment effects on exchange bias behavior in NiFe/(Ni,Fe)O bilayers”, accepted for publication in J. Nanosci. and Nanotechnol., 9, 2023 (SCI).

5. Ko-Wei Lin, Yi-Lun Chiu, An-Cheng Sun, Jen-Hwa Hsu, Johan van Lierop, and Takao Suzuki, 2009,“Ion-Beam Bombarded SiO2 Layer Effects on the Microstructure and Magnetism in FePt/SiO2 Bilayers”, Jap. J. Appl. Phys., 48, 073002 (SCI).

6. Jung-Yi Guo, Yi-Ming Tzeng, Johan van Lierop1, Sheng-Yueh Chang, and Ko-Wei Lin, 2009,“Thermal Annealing Effects on the Structural, Magnetic, and Magnetotransport Properties of NiFe/(Ni,Fe)O Bilayers”, Jap. J. Appl. Phys., 48, 073003 (SCI).

7. Jung-Yi Guo, Johan van Lierop1, Sheng-Yueh Chang, and Ko-Wei Lin, 2009,“Magnetic and Magnetotransport Properties of Exchange-Biased NiFe/NiO Bilayers” , Jap. J. Appl. Phys., 48, 073004 (SCI).

2008

1. K.-W. Lin and J.-Y. Guo, 2008, “In-plane and out-of-plane exchange biases in NiFe/Cr-oxide bilayers”, J. Appl. Phys., 104, 123913 (SCI).

2. K.-W. Lin, J.-Y. Guo, T.-J. Chen, H. Ouyang, E.Vass, and J. van Lierop, 2008, “Correlating exchange bias with magnetic anisotropy in ion-beam bombarded NiFe/Mn-oxide bilayers”, J. Appl. Phys., 104, 123908.

3. K.-W. Lin, J.-Y. Guo, and M.-R. Wei, 2008, “Cooling field and ion-beam bombardment effects on exchange bias behavior in NiFe/(Ni,Fe)O bilayers”, accepted for publication in J. Nanosci. and Nanotechnol. (SCI).

4. K.-W. Lin, J.-Y. Guo, H.-Y. Liu, H. Ouyang, D.-H. Wei, and J. van Lierop, 2008, “Anomalous exchange bias behavior in ion-beam bombarded NiCo/(Ni,Co)O bilayers”, J. Appl. Phys. 103, 07C105 (SCI).

2007

1. H. Ouyang, K.-W. Lin, C.-C. Liu,Y.-M. Tzeng, Z.-Y. Guo, J. van Lierop, and S.-C. Lo, 2007,” Anomalous exchange bias in a nanoscaled Ni80Fe20/NixFe1-xO thin-film bilayer”, Phys. Rev. Lett. , 98, 09724 (SCI).

2. J. van Lierop, K.-W. Lin, J.-Y. Guo, H. Ouyang and B. W. Southern, 2007,” Proximity effects in an exchange biased Ni80Fe20/Co3O4 thin-film”, Phys. Rev. B, 75, 134409 (SCI).

3. J. van Lierop, K.-W. Lin, Z.-Y. Guo, P.-H. Guo and Ouyang, 2007, “ Exchange bias in a nanocolumnar Ni80Fe20/α-Fe2O3 thin film”, J. Appl. Phys., 101, 09E505. (SCI).

4. K.-W. Lin, Z.-Y. Guo, H. Ouyang and J. van Lierop, 2007,“ The structure and magnetism of polycrystalline Ni80Fe20/ Nix(NiO)1-x thin-film bilayers”, submitted to J. Appl. Phys. (SCI).

5. K.-W. Lin, P.-H. Ko, Z.-Y. Guo, H. Ouyang, and J. van Lierop, 2007,” Tuning the exchange bias in NiFe/Fe-oxide bilayers by way of different Fe-oxide based mixtures made with an ion-beam deposition technique”, J. Nanosci. Nanotech., 7, 265 (SCI).

2006 

1. J. van Lierop, K.-W. Lin, H. Ouyang, Y.-M. Tzeng, and Z.-Y. Guo, 2006, "Anomalous positive exchange bias 

in Ni80Fe20/NixFe1-xO thin-film bilayers induced by ion-beam deposition  effects", J. Appl. Phys. 99, 08C104 (SCI).

2. J. van Lierop, K.-W. Lin, Z.-Y. Guo, and B. W. Southern, 2006,”Enhancement of the exchange-   bias onset

temperature in a columnar nanocrystalline Ni80Fe20/Co3O4 thin-film”, J. Appl. Phys., 99, 08C101(SCI).

3. K.-W. Lin, Y.-M. Tzeng, Z.-Y. Guo, C.-Y. Liu, and J. van Lierop, 2006,” Positive exchange

    bias in Ni80Fe20/NiFeO bilayers”, J. Magn. Magn. Mater., 304, e124~127 (SCI).

2005

1. K.-W. Lin, F.-T. Lin, and Y.-M. Tzeng, 2005, “XPS and MFM studies of ion-beam deposited Ni80Fe20/Co-oxide bilayers”, IEEE Trans. Magn., vol. 41, 927 (SCI).

2. K.-W. Lin, F.-T. Lin, and Y.-M. Tzeng, 2005,”Antiferromagnetic layer structure effect on exchange coupling strength ion-beam deposited Ni80Fe20/Co-oxide bilayers” Jpn. J. Appl. Phys.,vol. 44, 3932 (SCI).

3. K.-W. Lin, F.-T. Lin, Y.-M. Tzeng, and Z.-Y. Guo, 2005,”Structural and magnetic properties of ion-beam deposited NiFe/Co-oxide bilayers,” Eur. Phys. J. B, vol. 45, 237 (SCI).

4. K.-W. Lin, R. J. Gambino, and L. H. Lewis, 2005,”Tunning Magnetic Properties of Ion-beam-Deposited NiFe/NixFe1-xO Composite Films,” Jpn. J. Appl. Phys., vol. 44, 3936 (SCI).

5. K.-W. Lin and R. J. Gambino, 2005, “Enhanced Anisotropic Magnetoresistance (AMR) of Ion Beam Deposited Ni80Fe20-NixFe1-xO Composite Films”, Jpn. J. Appl. Phys., vol. 44, 6522(SCI).

1998~2004

1. K.-W. Lin, R. J. Gambino, and L. H. Lewis, 2003, “Structural and Magnetic Characterization of Ion Beam Deposited NiFe/NixFe1-xO Composite Films”, J. Appl. Phys. vol. 93, 6590 (SCI).

2. M. Manivel Raja, K.-W. Lin, and R.J. Gambino, 2002, “Spontaneous Hall effect studies on ion beam deposited GdCoZr amorphous alloy thin film sensors”, J. Appl. Phys. vol. 91, 7439 (SCI).

3.  W. Ye, P. Scala, K.-W. Lin, and R. J. Gambino, 2000, “Fabrication and Characterization of CoZrGd Hall Sensor”, IEEE Trans. Magn. vol. 36, 3673 (SCI).

4.  Y. Tian, K.-W. Lin, and F. Jona, 2000, “Anomalous multiplayer relaxation on a Cu{331}surfaces”, Phys. Rev. B.  vol. 62, 12844 (SCI).

5.  Y. Tian, J. Quinn, K.-W. Lin, and F. Jona, 2000, “The structure of stepped surfaces: Cu{320}”, Phys. Rev. B. vol.  61, 4904 (SCI). 

6.  Yu. D. Glinka, K.-W. Lin, H.-C. Chang, S. H. Lin and Y.T. Chen, 2000, “Power Laser Light-induced Photoluminescence from Detonation-Synthesized 5nm-Sized Diamonds”, Defects and Diffusion Forum vols.186-187, 37 (SCI).

7.  Yu. D. Glinka, K.-W. Lin, H.-C. Chang and S. H. Lin, 1999, “Multiphoton-excited luminescence from diamond   nanoparticles”, J. Phys. Chem. vol. 103, 4251 (SCI).

8.  Yu. D. Glinka, K.-W. Lin, and S. H. Lin, 1999, “Multiphoton-excited luminescence from diamond nanoparticles and an evolution to emission accompanying the laser vaporization process”, Appl. Phys. Lett. vol. 74, 236 (SCI).

9. K.-W. Lin, C.-L. Cheng, and H.-C. Chang, 1998, “Laser-induced intracluster reactions of oxygen-containing  

 nanodiamonds”, Chem. Mater. vol. 10, 1735 (SCI).

(B)研討會論文

1.  K.-W. Lin, F.-T. Lin, and Y.-M. Tzeng, Nov 7-11, 2004, 49th MMM, Jacksonville, Florida, USA, ”Antiferromagnetic layer structure effect on exchange coupling strength ion-beam deposited Ni80Fe20/Co-oxide bilayers”.

2.  K.-W. Lin, Z.-Y. Guo,and Y.-M. Tzeng, Nov 12-14, 2004, 3rd CVD, Taipei, Taiwan, ”Characterization of polycrystalline NiFe/Ni-oxide bilayers by ion –beam sputtering technique ” .

3.  K.-W. Lin, F.-T. Lin, and Y.-M. Tzeng, Sep 16-18, 2004, IWEBMN'04, Anglet, France, ”Structural and Magnetic properties of ion-beam deposited NiFe/Co-oxide bilayers”.

4.  K.-W. Lin, F.-T. Lin, Z.-Y. Guo, J.-L. Tsai, and Y.-D. Yao, Sep 27-30, 2004, APDSC'04, Taoyuan, Taiwan, ”Magnetic force Microscopy(MFM) Studies of Ion-beam Deposited NiFe/Co-oxide Bilayers” .

5.  K.-W. Lin, R. J. Gambino , and L. H. Lewis, Sep 27-30, 2004, APDSC'04, Taoyuan, Taiwan, ”Tunning Magnetic Properties of Ion-beam Deposited NiFe/NixFe1-xO Composite Films”.

6.  K.-W. Lin, F.-T. Lin, and Y.-M. Tzeng, Sep 27-30, 2004, APDSC'04, Taoyuan, Taiwan, ”Effects of Oxygen on Magnetic Properties of Ion-beam Deposited NiFe/Co-oxide Bilayers”.

7.  K.-W. Lin, F.-T. Lin, and Y.-M. Tzeng, Sep 27-30, 2004, APDSC'04, Taoyuan, Taiwan, ”Microstructure and X-ray Photoelectron Spectroscopy(XPS) Studies of Co-oxide Thin films Prepared by Ion-beam Sputtering Technique”.

8.  K.-W. Lin, Y. Kageyama, G. Denbeaux, and T. Suzuki, July 27-August 1, 2003, ICM 2003 conference, Rome, Italy, ” X-ray microscopy investigation of IBICVD fabricated magnetic particles”.

9.  K.-W. Lin, T. Suzuki, K. Kang, and Y. Kageyama, March 30-April 3, 2003, Intermag 2003 conference, Boston, USA, ”Fabrication and characterization of cobalt nanoparticles by IBICVD”. 

10. K.-W. Lin, T. Suzuki, K. Kang, and Z. Zhang, February 23-27, 2003, Nanotech 2003 conference, San Francisco, USA, ”Fabrication and characterization of cobalt particles by ion-beam induced chemical vapor deposition (IBICVD)”.

11. K.-W. Lin, R. J. Gambino, and L. H. Lewis, November 11-15, 2002, 47th MMM conference, Tampa, Florida, USA, “Structural and Magnetic Characterization of Ion Beam Deposited NiFe/NixFe1-xO Composite Films” .

12. M. Manivel Raja, K.-W. Lin, and R. J. Gambino, November 11-15, 2002, 47th MMM conference, Tampa, Florida, USA, “Ion-beam induced perpendicular anisotropy in GdCoZr alloy thin film Hall sensors”.

13. K.-W. Lin, C.-L. Cheng, and H.-C. Chang, Nov. 21-22, Volume C, p.118, 1997, Proceedings of the Chinese Society for Materials Science, National Cheng Kung University, Tainan, “Characterization of Detonation-Synthesized Nanodiamonds by Temperature-Programmed Desorption, High Resolution Transmission Electron Microscopy and Raman Spectroscopy”.

14. K.-W. Lin and C. Chen, Nov. 21-22, Volume D, p. 69, 1997, Proceedings of the Chinese Society for Materials Science, National Cheng Kung University, Tainan, “Effects of Nb contents on Titanium Aluminides Alloys”.

(C)專書及專書論文

1.  K.-W. Lin, May 2002, Ph.D. Dissertation, ” Structural and Magnetic Characterization of Ion Beam Deposited NiFe/NixFe1-xO Composite Films”, State University of New York at Stony Brook, Stony Brook, New York, USA

The Institute of Electrical and Electronics Engineers (IEEE). Chinese Society for Materials Science. Magnetic Society of Japan (MSJ). 

1. Magneto-Optic Materials Lab, Stony Brook University, New York, USA

2. Information Storage Materials Lab, Toyota Technological Institute, Nagoya, Japan

3. Nanomagnetism Research Group, University of Manitoba, Canada