Before 2008

• Method for forming a write head having an air bearing surface (ABS), US Patent 7,464,457, 2008
• Electronically tunable miniaturized antennas on magnetoelectric substrates with enhanced performance, IEEE Transactions on Magnetics44 (11), 3091-3094, 2008
• Giant magnetoelectric coupling and -field tunability in a laminated /lead-magnesium-niobate-lead titanate multiferroic heterostructure, Applied Physics Letters93 (11), 112502, 2008
• Giant microwave tunability in FeGaB/lead magnesiumniobate-lead titanate multiferroic composites, Applied Physics Letters92 (26), 262502, 2008
• Spin-spray deposited multiferroic composite with strong interface adhesion, Applied Physics Letters92 (15), 152504, 2008
• Structural and magnetic properties of ball-milled powders, Journal of Applied Physics103 (7), 07E728, 2008
• Ferromagnetic resonance studies of surface and bulk spin-wave modes in a multilayer film, Journal of Applied Physics103 (7), 07B525, 2008
• Effects of boron addition to the atomic structure and soft magnetic properties of FeCoB films, Journal of Applied Physics 103 (7), 07E736, 2008
• Strong magnetoelectric coupling at microwave frequencies in metallic magnetic film/lead zirconate titanate multiferroic composites, Applied Physics Letters92 (12), 122506, 2008
• Microwave, magnetic, and structural properties of nanocrystalline exchange-coupled films for high frequency applications, Journal of Applied Physics103 (6), 063917, 2008
• Circular polarization GPS patch antennas with self-biased magnetic films, Progress in Electromagnetics Research Symposium, 24-28, 2008
• Small ultra-wideband (UWB) bandpass filter with notched band, IEEE Microwave and Wireless Components Letters18 (3), 176-178, 2008
• Planar circular loop antennas with self-biased magnetic film loading, Electronics Letters44 (5), 332-334, 2008
• Spin-spray deposited multiferroic composite Ni0. 23Fe2. 77O4/Pb (ZrTi) O3 with strong interface adhesion., Applied Physics Letters, issue: SAND2008-1114J, 2008
• Giant magnetoelectric coupling and E-field tunability in a laminated Ni2MnGa, Applied physics letters93 (11), 2008
• Giant microwave tunability in FeGaB, Applied physics letters92 (26), 2008
• Structural and magnetic properties of ball-milled Ni₁₁Co₁₁Fe₆₆Zr₇B₄Cu powders, American Institute of Physics, 2008
• Microwave, magnetic, and structural properties of nanocrystalline exchange-coupled Ni₁₁Co₁₁Fe₆₆Zr₇B₄Cu₁ films for high frequency applications, American Institute of Physics, 2008
• Spin-spray deposited multiferroic composite Ni₀. ₂₃Fe₂. ₇₇O₄/Pb (Zr, Ti) O₃ with strong interface adhesion, American Institute of Physics, 2008
• Soft magnetism, magnetostriction, and microwave properties of FeGaB thin films, Applied Physics Letters91 (18), 182504, 2007
• A modified sol-gel process for multiferroic nanocomposite films, Journal of Applied Physics102 (8), 083911, 2007
• Bias field effects on microwave frequency behavior of PZT/YIG magnetoelectric bilayer, IEEE Transactions on Magnetics43 (7), 3343-3345, 2007
• Ferrite-coupled line circulator simulations for application at X-band frequency, IEEE Transactions on Magnetics 43 (6), 2639-2641, 2007
• Pulsed laser ablation deposition of nanocrystalline exchange-coupled   films for planar inductor applications, Journal of Applied Physics101 (9), 09M519, 2007
• Electronically tunable magnetic patch antennas with metal magnetic films, Electronics Letters43 (8), 434-436, 2007
• Synthesis of ordered arrays of multiferroic core-shell nanowires, Applied Physics Letters90 (15), 152501, 2007
• Self-assembled magnetic nanowire arrays, Applied Physics Letters90 (10), 103105, 2007
• Integrated metal magnetic film coupled line circulators for monolithic microwave integrated circuits, Electronics letters43 (5), 292-293, 2007
• Pulsed laser ablation deposition of nanocrystalline exchange-coupled Ni₁₁Co₁₁Fe₆₇₋ ₓZr₇B₄Cux (x= 0, 1) films for planar inductor applications, American Institute of Physics, 2007
• Synthesis of ordered arrays of multiferroic NiFe₂O₄-Pb (Zr₀. ₅₂Ti₀. ₄₈) O₃ core-shell nanowires, American Institute of Physics, 2007
• Method for forming a write head having air bearing surface (ABS), US Patent 7,120,988, 2006
• Effective anisotropy fields and ferromagnetic resonance behaviors of CoFe/PtMn/CoFe trilayers, IEEE Transactions on Magnetics 42 (10), 2993-2995, 2006
• Single crystal Fe films grown on Ge (001) substrates by magnetron sputtering, Applied Physics Letters89 (11), 112501, 2006
• High qualityFe films on semiconductor (001) germanium (Ge) substrate, Magnetics Conference, 2006. INTERMAG 2006. IEEE International, 158-158, 2006
• Self-assembled magnetic nanowire arrays, Magnetics Conference, 2006. INTERMAG 2006. IEEE International, 461-461, 2006
• Microwave and DC anisotropy fields of exchange-coupled CoFe/PtMn/CoFe trilayers, Magnetics Conference, 2006. INTERMAG 2006. IEEE International, 961-961, 2006
• Ba-hexaferrite films for next generation microwave devices, Journal of Applied Physics99 (8), 08M911, 2006
• Structure and magnetism of nanocrystalline exchange-coupled   films, Journal of Applied Physics99 (8), 08F115, 2006
• A quantitative model for the nonlinear response of fluxgate magnetometers, Journal of Applied Physics99 (8), 08B316, 2006
• Magnetic and microwave properties of multilayer films, Journal of Applied Physics99 (8), 08C901, 2006
• Room temperature magnetism in semiconducting films of ZnO doped with ferric ions, Journal of Applied Physics 99 (8), 08M109, 2006
• Magnetic transducer for perpendicular magnetic recording with single pole write head with trailing shield, US Patent 7,009,812, 2006
• Write pole and method of manufacturing the same, US Patent App. 10/931,649, 2006
• Magnetic headhaving a deposited second magnetic shield and fabrication method therefor, US Patent App. 10/883,327, 2006
• Structure and magnetism of nanocrystalline exchange-coupled (Ni₀. ₆₇Co₀. ₂₅Fe₀. ₀₈) ₈₉₋ ₓZr₇B₄Cuₓ (x= 0, 1) films, American Institute of Physics, 2006
• Ba-hexaferrite films for next generation microwave devices, American Institute of Physics, 2006
• Magneto-optical Kerr Effect microscope, Honors Junior/Senior Projects, 27, 2005
• Magnetic annealing of plated high saturation magnetization soft magnetic FeCo alloy films, Journal of Applied Physics97 (10), 10N904, 2005
• Stress, microstructure, and magnetic softness of high saturation magnetization FeCoN films, Journal of Applied Physics97 (10), 10F906, 2005
• Write pole fabrication for perpendicular recording, US Patent App. 10/672,896, 2005
• Damping criteria of magnetization in ferromagnetic ellipsoids, IEEE Transactions on Magnetics40 (1), 253-256, 2004
• Anisotropy dispersion effects on the high frequency behavior of soft magnetic Fe–Co–N thin films, Journal of Applied Physics93 (10), 6468-6470, 2003
• Tb doped CoTaZr soft magnetic films for integrated inductors, Magnetics Conference, 2003. INTERMAG 2003. IEEE International, EA-01, 2003
• Soft magnetism of Fe–Co–N thin films with a Permalloy underlayer, Journal of Applied Physics92 (3), 1477-1482, 2002
• Advanced Soft Magnetic Materials for Magnetic Recording Heads and Integrated Inductors, MRS Online Proceedings Library Archive721, 2002
• High saturation magnetization soft magnetic iron-cobalt-nickel films for GHz applications, Thesis (Ph.D.) –Stanford University, 2002
• High-frequency behavior and damping of Fe-Co-N-based high-saturation soft magnetic films, IEEE Transactions on Magnetics 38 (1), 146-150, 2002
• Soft magnetism and high frequency behavior of Fe-Co-N thin films, Digests of TMRC, 2001
• Soft high saturation magnetization (Fe/sub 0.7/Co/sub 0.3/)/sub 1-x/N/sub x/thin films for inductive write heads, IEEE Transactions on Magnetics36 (5), 2506-2508, 2000
• Sandwich films: Properties of a new soft magnetic material, Nature407 (6801), 150, 2000
• Microstructures and Soft Magnetic Properties of High Saturation Magnetization Fe-Co-N alloy Thin Films, MRS Online Proceedings Library Archive614, 2000
• Magnetic properties and high-frequency responses of high moment FeTaN/AlN laminates for high-data-rate magnetic recording, IEEE Transactions on Magnetics 35 (5), 2502-2504, 1999
• Grain-size limit of polycrystalline materials, Physical Review B59 (9), 5987, 1999
• PART I-RECORDING HEAD TECHNOLOGIES-Magnetic Properties and High Frequency Responses of High Moment FeTaN/AlN Laminates for High-Data-Rate Magnetic Recording, IEEE Transactions on Magnetics35 (5), 2502-2504, 1999
• Grain-boundary enthalpy of nanocrystalline materials crystallized from the amorphous state, Physical Review B 56 (10), 5885, 1997
• Explanation of the melting behaviour of embedded particles; equilibrium melting point elevation and superheating, Philosophical magazine letters76 (2), 105-110, 1997
• Superheating of bulk polycrystalline selenium, Philosophical magazine letters76 (1), 49-56, 1997
• Grain-boundary enthalpy of nanocrystalline selenium, Philosophical magazine letters75 (6), 389-395, 1997
• Heat-capacity comparison among the nanocrystalline, amorphous, and coarse-grained polycrystalline states in element selenium, Physical Review B 54 (9), 6058, 1996
• Nanocrystallization of amorphous Fe33Zr67 alloy, Nanostructured materials7 (6), 637-649, 1996
• An explanation to the anomalous Avrami exponent, Scripta Materialia34 (8), 1201-1207, 1996
• Apparent crystallization kinetics of partially amorphous Fe sub 33 Zr sub 67 alloys, Acta Metallurgica Sinica(China)(People’s Republic of China)31 (5), 1995
• 部分非晶态 Fe33Zr67 合金条带的表观晶化动力学, 金属学报31 (5), B206-B211, 1995
• Apparent Crystallization Kinetics of Partially Amorphous Fe 3 3 Zr 6 7 Alloys., Chinese Science Abstracts SeriesA 5 (14), 61, 1995

Book Chapter by Winchester Tech Staff and Affiliates

• Xing Xing and Nian X. Sun, “Nonlinear Vibration Energy Harvesting with High-Permeability Magnetic Materials”, inAdvances in Energy Harvesting Methods, by Editors: Alper Erturk and Niell Elvin, Springer, New York, 437-455 (2013).
• Nian X. Sun, Shashank Priya and Gopalan Srinivasan, Composite Magnetoelectrics: Materials, Structures and Applications, by Elsevier, 2015.
• T Nan, NX Sun, “Progress toward magnetoelectric spintronics”, in Composite Magnetoelectrics: Materials, Structures, and Applications, Edited by G. Srinivasan, S. Priya, and N.X. Sun, pp. 329.
• Z Hu, NX Sun, “Epitaxial multiferroic heterostructures”, in Composite Magnetoelectrics: Materials, Structures, and Applications, Edited by G. Srinivasan, S. Priya, and N.X. Sun, pp. 87
• G Yang, NX Sun, “Magnetoelectric composites for miniature antennas”, in Composite Magnetoelectrics: Materials, Structures, and Applications, Edited by G. Srinivasan, S. Priya, and N.X. Sun, pp. 265.
• Z. Zhou, NX Sun, “Multiferroic Nanostructures”, in Composite Magnetoelectrics: Materials, Structures, and Applications, Edited by G. Srinivasan, S. Priya, and N.X. Sun, pp. 71.