電子科技大學教授
教育背景
2001.08-2004.08 Iowa State University(USA),材料科學與工程,博士學位
1996.09-1999.07 四川大學(Sichuan University),材料科學與工程,碩士學位
1992.09-1996.07 四川大學(Sichuan University ),材料科學與工程,學士學位
工作履歷
2009.07 - 現 在 電子科技大學, 教授/博導
2004.10-2009.07 電子科技大學, 副教授
2000.02 - 2001.06 托普科技, 工程師
1999.08 - 2000.01 春蘭集團研究院, 工程師
學術兼職
1) 2012-現在, IEEE Transactions on Magnetics, 任 Associate Editor ;
2)擔任國家自然科學基金委通訊評審專家 ;
榮譽獎勵
2007年, 國防科學技術進步獎一等獎
2011年, 教育部新世紀優秀人才
2013年, 四川省傑出青年基金獲得者
2013年, 國家級精品資源共享課《電子材料》
2014年, 教育部創新團隊成員
2015年,泰晤士報高等教育機構舉辦“2015 World University Rankings”《2015世界大學排名》的投票者
體育愛好
網球;
花式足球;
游泳;
人物信息
至今,韓滿貴教授已在Applied Physics Letters, Journal of Applied Physics, Journal of Magntism and Magnetic Materials, Thin Solid Films, IEEE Transactions on Magnetics, Journal of Alloys and Compounds, Chinese Physics, Journal of Materials Science等國際知名期刊上共發表學術論文四十餘篇,文章它引次數達400餘次。十餘次應邀參加國際學術會議,如 International Magnetics Conference, Annual Conference on Magnetism & Magnetic Materials, American Physical Society (March Meeting), European Magnetic Sensors and Actuators Conference, International Conference on Electronic Measurement & Instruments, International Conference on Magnetism,International Conference on Materials for Advanced Technologies等。2008年,應邀在2008 Moscow International Symposium on Magnetics 上做特邀報告。IEEE Member, American Physical Society Member, International Microelectronics And Packaging Society And Educational Foundation, Member。2010年擔任國際會議"Progress in Electromagnetics Research Symposium" (PIERS)的分會主席。
主要成就
長期擔任國際著名期刊 Applied Physics Letters, Journal of Applied Physics, Journal of Magnetism and Magnetic Materials, Materials Research Bulletins, Physics Solid Status(A), Journal of American Ceramics Society, Journal of Materials Sciences 磁學領域的同行審稿人,入選Marquis Who's Who in Science and Engineering,Marquis Who's Who in the World名人錄。在本校主講國家級精品課程“電子材料” 和碩士生課程“磁性功能材料與套用“。獲國家級獎一等獎一項。目前承擔多項國家自然科學基金、973項目1項、多項省部級研究項目、多項國際合作研究項目和校青年基金。
2011年入選中國教育部“新世紀優秀人才支持計畫”。
2013年獲四川省傑出青年基金資助。
國際磁學領域SCI期刊 “IEEE Transactions on Magnetics” 的編委;
國內中文核心期刊 “熱加工工藝” 的編委。
共發表論文55篇,它引次數超過450次,以電子科技大學為第一單位所發表的論文它引次數在學院名列前茅!
學術成果
代表性論文 ( * = Corresponding Author)
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06) "Preparing magnetic Yttrium Iron Garnet nanodot arrays by ultrathin anodic alumina template on silicon substrate", Hui Zheng, Mangui Han*, Liang Zheng, Peng Zheng, Qiong Wu, Longjiang Deng, Huibin Qin,Applied Physics Letters, 107, 062401(2015).
05)“Fabrication and electromagnetic wave absorption properties of amorphous Fe79Si16B5 microwires”,Mangui Han*, Difei Liang, and Longjiang Deng, Applied Physics Letters, 99 (2011) 082503.
04)“Control of gigahertz permeability and permittivity dispersion by means of nanocrystallization in FeCo based nanocrystalline alloy”, Mangui Han*, Haipeng Lu, and Longjiang Deng, Applied Physics Letters, 97 (2010) 192507.
03)“Doping effect of multiwall carbon nanotubes on the microwave electromagnetic properties of NiCoZn spinel ferrites”, Mangui Han*, Longjiang Deng, Applied Physics Letters, 90, (2007) 011108.
02)“Analyses on the dispersion spectra of permeability and permittivity for NiZn spinel ferrites doped with SiO2”, Mangui Han*, Difei Liang, and Longjiang Deng, Applied Physics Letters, 90 (2007) 192507.
01)“Microwave absorbing performances of multiwalled carbon nanotube composites with negative permeability”, Longjiang Deng and Mangui Han*, Applied Physics Letters, 91(2007) 023119. Applied Physics Letters, 91(2007) 023119.
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08)“Studies on the microwave permittivity and electromagnetic wave absorption properties of Fe-based nanocomposite flakes in different sizes”, Yanhui Wu, Mangui Han*, Longjiang Deng, Journal of Applied Physics, 118, 023902 (2015).
07) "Eddy current effect on the microwave permeability of Fe-based nanocrystalline flakes with different sizes” , Yanhui Wu, Mangui Han*, Zhongkai Tang, Longjiang Deng, Journal of Applied Physics, Vol. 115 (2014)163902.
06)“Effect of attrition time on the microwave permeability of magnetic Fe-Si-Al flakes”, Mangui Han*, Difei Liang, Jianliang Xie, and Longjiang Deng, Journal of Applied Physics, 111(2012)07A317.
05)“Effect of shape of Fe particles on their electromagnetic properties within 1–18 GHz range”, Mangui Han*, Wei Tang, Wenbing Chen, Hao Zhou, and Longjiang Deng, Journal of Applied Physics,107, (2010) 09A958. , 90 (2007) 192507.
04)“Microwave electromagnetic and absorption properties of Nd2Fe14B/a-Fe nanocomposites in the 0.5-18 and 26.5-40 GHz range”, Li-Xian Lian*, L. J. Deng, M. Han, W. Tang, and Shao-Dong Feng, Journal of Applied Physics, 101, 09M520 (2007).
03)“Anisotropy and magnetic transitions in single crystal Tb5(Si2.2Ge1.8)”, M. Han*, J. E. Snyder, W. Tang, T. A. Lograsso, D. L. Schlagel, D. C. Jiles, Journal of Applied Physics, 97 (2005) 10M313.
02)“Giant magnetostriction behavior at the Curie temperature of single crystal Gd5(Si0.5Ge0.5)4”, M. Han*, D. C. Jiles, J. E. Snyder and T. A. Lograsso, D. L. Schlagel, Journal of Applied Physics, Vol. 95 (2004) 6945-6947.
01)“Thermal expansion studies on the unusual first order transition of Gd5Si2.09Ge1.91 : effects of purity of Gd”, M. Han*, D. C. Jiles, J. E. Snyder, C. C. H. Lo, J. S. Leib, J. A. Paulsen, A. O. Pecharsky, Journal of Applied Physics, Vol. 93 (2003)8486-8488.
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01)“Synthesis, microwave electromagnetic, and microwave absorption properties of twin carbon nanocoils”, Tang N. J.*, Zhong W., Au C. K., Yang Y., Han M., Lin K, J., Du Y. W. (2008)., J. Phys. Chem. C, Vol. 112, No. 49, 19316-19323.
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04) “Electrodeposited Fe-P nanowire arrays in hard-anodic aluminum oxide templates with controllable magnetic properties by thermal annealing", Yanhui Wu, Mangui Han*, Journal of Alloys and Compounds. 688 (2016) 783-789.
03) “Microwave permeability of nanocrystalline alloys (Fe0.67Co0.33)78Nb6B15Cu1 and (Fe0.67Co0.33)78Nb6Al6B9Cu1“, M. Han*, J. Qin, L. Deng, Journal of Alloys and Compounds, 543(2012)79-83.
02)“Magnetic properties of Ba-M-type hexaferrite prepared by sol-gel method with and without PEG added”, M. Han*, Y. Ou, W. Chen, L. Deng, Journal of Alloys and Compounds, 474(2009)185-189.
01)“Effect of Nd content on natural resonance frequency and microwave permeability of Nd2Fe14B/a-Fe nanocomposites in 26.5-40GHz frequency range”, L.X. Lian*, L.J. Deng, M. Han, S.D. Feng, Journal of Alloys and Compounds 441 (2007) 301–304.
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Book Chapters
1)“ Carbon Nanotubes–Applications on Electron Devices“, Chapter 12 ” High Frequency Properties of Carbon Nanotubes and Their Electromagnetic Wave Absorption Properties“, by Mangui Han*, Longjiang Deng, ISBN: 978-953-307-496-2, Published by Intech Open Access Publisher, 2011.
International Invited Talks (國際邀請報告)
1) “New Rare Earth Intermetallic Compound for Sensors and Actuators" (Invited), D. C. Jiles, M. Han, C. C. H. Lo, J. E. Snyder, K. A. Gschneidner, V. K. Pecharsky, A. O. Pecharsky, T. A. Lograsso and D. L. Schlagel, the 5th European Magnetic Sensors and Actuators Conference (EMSA), July, 2004, Cardiff, United Kingdom.
2) “Microwave permittivity and permeability properties of Fe nano particles coated with carbon” (Invited), Mangui Han, Longjiang Deng, Moscow International Symposium on Magnetism, June 20 – 25, 2008, Moscow, Russia.
3) "Microwave Susceptibility Dispersion Spectra of Nanostructured Magnetic Arrays"(Invited), Progress In Electromagnetics Research Symposium , [Session Chair], Xi'an, 22-26, March, 2010, China.
4) "Intrinsic microwave permeability and Mössbauer spectra of flaky Fe-Si-Al particles"(Invited), IEEE International Conference on Microwave Magnetics, University of Kaiserslautern, Aug. 26-29, 2012, Germany.
5) “Eddy current effect on high-frequency permeability of Fe-based nanocomposites”(Invited), Han M., Rozanov K. N., Zezyulina P. A., Moscow International Symposium on Magnetism, 29 June – 3 July, 2014, Moscow, Russia.
6) “Tuning the high frequency properties of ferromagnetic materials for anti-EMI application” (Invited), Han Man-Gui, Deng Long-Jiang, the 3rd International Conference of Asian Union of Magnetics Societies (ICAUMS), Oct. 28 – Nov. 2, 2014, Haikou, China.
7) "Optimization the nanostructures of Fe-based nanocrystalline flakes by using Mossbauer measurements" (Invited), Mangui Han, Deng Long-Jiang, Industrial Symposium on the Applications of Mossbauer Effect (ISAME), Cape Town, South Africa, 4th-8th September, 2016.
Granted Patents (授權專利)
已授權中國發明專利:
【1】 ZL201110156398.4;
【2】 ZL201110144981.3;
【3】 ZL201110447119.X.
【4】 ZL201210094367.5
【5】ZL201310173769.9
59." Enhanced reversibility and electrochemicalperformances of mechanically alloyed Cu3Pachieved by Fe addition",Aijun Zhou,* Bin Yang, Weihang Wang, Xinyi Dai, Mingjuan Zhao, Jing Xue, Mangui Han, Cong Fan and Jingze Li*, RSC Advances, 6(2016)26800–26808.
58." Fabrication and Magnetic Properties of N-type Porous Silicon/NickelMicrotubes Composite",Zhou Hui, Han Man-Gui*, Tang Zhong-Kai, Wu Yan-Hui, Journal of Inorganic Materials,Vol. 31. No. 8 (2016) 855-859.
57." Electrodeposited Fe-P nanowire arrays in hard-anodic aluminumoxide templates with controllable magnetic properties by thermalannealing", Yanhui Wu, Mangui Han*, Journal of Alloys and Compounds. 688( 2016) 783-789.
56." Magnetic properties of hexagonal barium ferrite films on Pt/MgO(111) substrates annealed at different temperatures" ,Hui Zheng, Mangui Han*, Liang Zheng, Jiangxia Deng, Peng Zheng, Qiong Wu, Longjiang Deng, Huibin Qin, Journal of Magnetism and Magnetic Materials, 413(2016) 25-29.
55." Preparation of Porous Silicon Templates in Two Steps ofAu-Assisted Chemical Etching" ,Hui Zheng, Liang Zheng, Mangui Han, and Huibin Qin*, Journal of Nanoscience and Nanotechnology,Vol. 16, (2016)1-5.
54.“ Fabrication of CoFe2O4 ferrite nanowires arrays in porous silicon templates and their local magnetic properties", Hui Zheng, Mangui Han*, Longjiang Deng, Chinese Physics B, Vol. 25, No.2 (2016)026201 .
53. " Micromagnetics simulation on the microwave permeability of magnetic porous nano-flakes", Tu Kuan, Han Man-Gui*, Acta Physica Sinica, Vol. 64, No. 23, 237501 (2015).
52." Preparing magnetic Yttrium Iron Garnet nanodot arrays byultrathin anodic alumina template on silicon substrate",Hui Zheng, Mangui Han*, Liang Zheng, Peng Zheng, Qiong Wu, Longjiang Deng, Huibin Qin, Applied Physics Letters, 107, 062401(2015).
51." High-frequency magnetic properties of [FeCo/FeCo-SiO2]n multilayered filmsdeposited on flexible substrate",L. Zhang*, W. B. Zhu, H. Y. Zheng, L. Bi, X. Wang, M. G. Han, H. P. Lu, J. L. Xie and L. J. Deng, Journal of Applied Physics, 117, 17C110(2015).
50.“ Studies on the microwave permittivity and electromagnetic wave absorption properties of Fe-based nanocomposite flakes in different sizes ”, Yanhui Wu, Mangui Han*, Longjiang Deng, Journal of Applied Physics, 118, 023902(2015).
49. "Enhancing the microwave absorption properties of Fe-Cu-Nb-Si-Bnanocomposite flakes by coating with spinel ferrite NiFe2O4",Yanhui Wu, Mangui Han* and Longjiang Deng, IEEE Transactions on Magnetics,Vol. 51, No. 11 (2015)2802204
48. "Large electromagnetic wave absorbing bandwidth of compositescontaining Fe3O4 nano ribbons",Yanhui Wu, Mangui Han* and Longjiang Deng, IEEE Transactions on Magnetics,Vol. 51, No. 11(2015)2802604.
47. “Effect of eddy current and dispersion of magnetic anisotropy on the high-frequency permeability of Fe-based nanocomposites“, M. Han*, K. N. Rozanov, P. A. Zezyulina, Yan-Hui Wu, Journal of Magnetism and Magnetic Materials,383(2015)114-119.
46."Study on the scattering properties of an artificial electromagnetic hard surface", Xingxing Huang*, Peiheng Zhou, Haiyan Chen, Mangui Han, and Longjiang Deng, PIERS Proceedings, Guangzhou, China2014, 2458-2461.
45."Synthesize of barium ferrite nanowire array by self-fabricated porous silicon template",Hui Zheng, Mangui Han, Jiangxia Deng, Liang Zheng, Jun Wu, Longjiang Deng, Huibin Qin*, Applied Surface Science, 311(2014)672-675.
44."Preparation of low ferromagnetic resonance linewidth yttrium iron garnet films on silicon substrate",H. Zheng *, H. B. Qin, P. Zheng, J. X. Deng, L. Zheng, M. G. Han, Applied Surface Science,307 (2014) 661–664.
43.” Eddy current effect on the microwave permeability of Fe-based nanocrystalline flakes with different sizes” ,Yanhui Wu, Mangui Han*, Zhongkai Tang, Longjiang Deng, Journal of Applied Physics, Vol. 115 (2014)163902.
42.” Preparation of two-dimensional yttrium iron garnet magnonic crystal on porous silicon substrate“, H. Zheng, J. J. Zhou, J. X. Deng, P. Zheng, L. Zheng, M. G. Han, Y.Q. Yang, L.J. Deng, H.B. Qin, Materials Letters, Vol. 123 (2014)181-183.
41.” Electromagnetic wave absorbing properties and hyperfine interactions of Fe-Cu-Nb-Si-B nanocomposites”, Han Man-Gui*, Guo Wei, Wu Yan-Hui, Liu Min, Magundappa L. Hadimani, Chinese Physics B, Vol. 23, No. 8 (2014)083301-1~5.
40.” Microwave permeability of single cobalt nanotube studied by micromagnetics simulations and generalized Snoek ’s law”Mangui Han*, Wei Guo, Longjiang Deng, Science China-Technological Science ,Vol. 57, No. 2(2014)254-258.
39.“ Porous silicon templates prepared by Cu-assisted chemical etching” , Hui Zheng, Mangui Han*, Peng Zheng, Liang Zheng, Huibin Qin, Longjiang Deng, Materials Letters, 118(2014)146-149.
38.“ Mössbauer studies on the shape effect of Fe84.94Si9.68Al5.38 particles on their microwave permeability“, Han Man-Gui*, Deng Long-Jiang, Chinese Physics B, Vol. 22, No. 8 (2013)083303-1-083303-6.
37. “Microwave permeability and Mossbauer spectroscopy of flaky Fe-Si-Al particles”, M. Han*, D. Liang, K. N. Rozanov, L. Deng, IEEE Transactions on Magnetics,Vol. 49, No. 3( 2013)982-985.
36.” Understanding the enhanced microwave permeability of Fe-Si-Al particles by Mössbauer spectroscopy“, Mangui Han*, Longjiang Deng, Journal of Magnetism and Magnetic Materials , vol. 337-338, (2013)70 –73.
35.” Microwave permeability of nanocrystalline alloys (Fe0.67Co0.33)78Nb6B15Cu1 and (Fe0.67Co0.33)78Nb6Al6B9Cu1“, M. Han*, J. Qin, L. Deng, Journal of Alloys and Compounds,543(2012)79-83.
34. “Effect of attrition time on the microwave permeability of magnetic Fe-Si-Alflakes”, Mangui Han*, Difei Liang, Jianliang Xie, and Longjiang Deng, Journal of Applied Physics,111(2012)07A317.
33.“ Fabrication and microwave absorption properties of CoNiCu alloy nanowires“, Zhou Hao, Han Mangui*, Chen Wenbing, Deng Longjiang, Rare Metal Materials and Engineering,41(2012)339-342.
32. “Fabrication and electromagnetic wave absorption properties of amorphous Fe79Si16B5 microwires”,Mangui Han*, Difei Liang, and Longjiang Deng, Applied Physics Letters, 99 (2011) 082503.
31.“ Fabrication and electromagnetic wave absorption properties of amorphous Ni-P nanotubes“, Lu Haipeng, Han Man Gui*, Cai Li, Deng Long-Jiang, Chinese Physics B, Vol. 20, No. 6 (2011)060701.
30.“ Microwave absorption properties of Cobalt nanowires with transverse magnetocrystalline anisotropy“, Chen Wen Bing, Han Man Gui*, Deng Long Jiang, Acta Physica Sinica, Vol. 60, No. 1 (2011)0712.
29. “Electric tunability of microwave permeability dispersion behaviors of metamaterials”,Zhong Shun Lin, Han Man Gui*, Deng Long Jiang, Acta Physica Sinica, Vol. 60, No. 11(2011)117501.
28. “Control of gigahertz permeability and permittivity dispersion by means of nanocrystallization in FeCo based nanocrystalline alloy”, Mangui Han*, Haipeng Lu, and Longjiang Deng, Applied Physics Letters,97 (2010) 192507.
27. “Effect of shape of Fe particles on their electromagnetic properties within 1–18 GHz range”,Mangui Han*, Wei Tang, Wenbing Chen, Hao Zhou, and Longjiang Deng , Journal of Applied Physics ,107, (2010) 09A958.
26. “Micromagnetic simulation on the dynamic susceptibility spectra of cobalt nanowires arrays: the e ff ect of magnetostatic interaction ”, Chen Wen-Bing, Han Man-Gui*, Zhou Hao, Ou Yu, and Deng Long-Jiang, Chinese Physics B,Vol. 19, No. 8 (2010) 087502.
25. “Microwave absorption properties of cobalt nanowires fabricated by pulse electrodeposition”, Wenbing Chen, Mangui Han*, and Longjiang Deng, PIERS ONLINE, VOL. 6, NO.1, (2010)1-5.
24. “Microwave susceptibility dispersion spectra of nanodot arrays with perpendicular anisotropy”,Wenbing Chen, Mangui Han*, and Longjiang Deng, PIERS ONLINE ,VOL. 6, NO. 2, (2010) 101-104.
23. “High frequency microwave absorbing properties of cobalt nanowires with transverse magnetocrystalline anisotropy”, Wenbing Chen, Mangui Han*, Longjiang Deng, Physica B ,405 (2010) 1484.
22. “ Finite elements micromagnetism simulation on the dynamic reversal of magnetic moments of Co nanowires”,Lu Hai-Peng, Han Man-Gui*, Deng Long-Jiang, Liang Di-Fei, Ou Yu, Acta Physica Sinica ,Vol. 59, No. 3 (2010)2090.
21. “Finite element micromagnetism simulations on the magnetization reversal behaviors of cobalt nanotubes”, Mangui Han*, Wenbing Chen, Longjiang Deng, J ournal of Nanoscience and Nanotechnology,Vol.10, (2010)7079-7082.
20. “Microwave absorption properties of double-layer absorbers made of NiCoZn ferrites and hollow glass microspheres electroless plated with FeCoNiB”, Mangui Han *, Yu Ou, Longjiang Deng, Journal of Magnetism and Magnetic Materials,321 (2009) 1125–1129.
19. “Annealing e ff ects on the microwave permittivity and permeability properties of Fe79Si16B5 microwires and their microwave absorption performances ”, Han Man-Gui*, Ou Yu, Liang Di-Fei, and Deng Long-Jiang, Chinese Physics B, Vol.18, No 3, (2009) 1261-1265.
18. “Magnetic properties of Ba-M-type hexaferrite prepared by sol-gel method with and without PEG added”, M. Han *, Y. Ou, W. Chen, L. Deng, Journal of Alloys and Compounds,474(2009)185-189.
17. “Doping effect of multiwall carbon nanotubes on the microwave electromagnetic properties of NiCoZn spinel ferrites”, Mangui Han*, Longjiang Deng, Applied Physics Letters,90, (2007) 011108.
16. “Analyses on the dispersion spectra of permeability and permittivity for NiZn spinel ferrites doped with SiO2”, Mangui Han*, Difei Liang, and Longjiang Deng, Applied Physics Letters,90 (2007) 192507.
15. “Microwave electromagnetic and absorption properties of Nd2Fe14B/a-Fe nanocomposites in the 0.5-18 and 26.5-40 GHz range”, Li-Xian Lian*, L. J. Deng, M. Han, W. Tang, and Shao-Dong Feng, Journal of Applied Physics ,101, 09M520 (2007).
14.” E ff ect of annealing treatments on the microwave electromagnetic properties of amorphousFeCuNbSiB microwires“, Liang Di-Fei,Han Man-Gui*, Yan Bo, Deng Long-Jiang, Chinese Physics,16(2007)542-547.
13. “Effect of Nd content on natural resonance frequency and microwave permeability of Nd2Fe14B/a-Fe nanocomposites in 26.5-40GHz frequency range”, L.X. Lian*, L.J. Deng, M. Han, S.D. Feng, Journal of Alloys and Compounds 441(2007) 301–304.
12. “Sensors development using its unusual properties of Fe/Co-based amorphous soft magnetic wire”, M. Han*, D. F. Liang, L. J. Deng, Journal of Materials Science ,40 (2005)5573–5580.
11. “Comparisons on the properties of (Zn1-xCox)2-W type barium hexaferrite thin films prepared on the Si (100) and (111) substrates”, Mangui Han*, Haipeng Lu, Cuicui Lin, Longjiang Deng, Thin Solid Films,515 (2007) 7294–7298.
10. “Microwave absorbing performances of multiwalled carbon nanotube composites with negative permeability”,Longjiang Deng and Mangui Han*, Applied Physics Letters,91(2007) 023119.
09. “Microwave-absorbing properties of NiCoZn spinel ferrites”, JianLiang Xie, Mangui Han*, Liang Chen, Renxiong Kuang, Longjiang Deng, Journal of Magnetism and Magnetic Materials,314 (2007) 37–42.
08. “Anisotropy and magnetic transitions in single crystal Tb5(Si2.2Ge1.8)”, M. Han*, J. E. Snyder, W. Tang, T. A. Lograsso, D. L. Schlagel, D. C. Jiles, Journal of Applied Physics,97 (2005) 10M313.
07. “Giant magnetostriction behavior at the Curie temperature of single crystal Gd5(Si0.5Ge0.5)4”, M. Han*, D. C. Jiles, J. E. Snyder and T. A. Lograsso, D. L. Schlagel, Journal of Applied Physics,Vol. 95 (2004) 6945-6947.
06.“ Extraordinary Magnetomechanical Coupling as a Result of a Combined Magnetic Structural Transition in a New Class of Rare Earth Compound“, D. C. Jiles*,S. J. Lee, M. Han, C. C. H. Lo, V. K. Pecharsky, K. Gschneidner Jr. Journal of magnetics,Vol. 3, (2003) 1-6.
05. “Thermal expansion studies on the unusual fi rst order transition of Gd5Si2.09Ge1.91 : effects of purity of Gd ”,M. Han*, D. C. Jiles, J. E. Snyder, C. C. H. Lo, J. S. Leib, J. A. Paulsen, A. O. Pecharsky, Journal of Applied Physics,Vol. 93 (2003)8486-8488.
04. “Angular dependence of the unusual first order transition temperature in single crystal Gd5(Si~0.5Ge~0.5)4”, M. Han*, D. C. Jiles, S. J. Lee, J. E. Snyder, T. A. Lograsso, and D. L. Schlagel, IEEE Transactions on Magnetics ,Vol. 39, NO. 5 (2003) 3151-3153.
03. “Thermal expansion of single crystal Gd5(Si1:95Ge2:05) showing unusual first order transformation”, M. Han*, Jason A. Paulsen, J. E. Snyder, D. C. Jiles, T. A. Lograsso, and D. L. Schlagel, IEEE Transactions on Magnetics,VOL. 38, NO. 5 (2002) 3252-3254.
02. “Synthesis, microwave electromagnetic, and microwave absorption properties of twin carbon nanocoils”, Tang N. J.*, Zhong W., Au C. K., Yang Y., Han M., Lin K, J., Du Y. W. (2008)., J. Phys. Chem. C,Vol. 112, No. 49, 19316-19323.
01. “Magnetocrystalline anisotropy in single crystal Gd5(Si2.7Ge1.3) and Gd5Si2Ge2″, R. L. Hadimani, Y. Melikhov, M. Han, D. C. Jiles, IEEE Transactions on Magnetics,48 (2012)3898-3991.
