Browsing by Author Dong, K.F.

Showing results 1 to 12 of 12
Issue DateTitleAuthor(s)
2013Control of microstructure and magnetic properties of fept films with TiN intermediate layerDong, K.F.; Li, H.H.; Hu, J.F.; Peng, Y.G.; Ju, G.; Chow, G.M. ; Chen, J.S. 
2013Control of the microstructure of FePt-SiNx -C (001) film by a nucleation layer grown on TiN intermediate layerLi, H.H.; Dong, K.F.; Chow, G.M. ; Chen, J.S. 
15-Aug-2011High coercive FePt and FePt-SiNx(001) films with small grain size and narrow opening-up of in-plane hysteresis loop by TiN intermediate layerLi, H.H.; Dong, K.F.; Peng, Y.G.; Ju, G.; Chow, G.M. ; Chen, J.S. 
2012High coercive L10 FePt-X granular films with small opening-up of in-plane hysteresis loop by using conductive TiN intermediate layerChen, J.S. ; Dong, K.F.; Li, H.H.; Chow, G.M. ; Hu, J.F.
2013Investigation of composition-induced strain effect in FexPt 1-x films grown on different substratesDong, K.F.; Li, H.H.; Chen, J.S. 
21-Jun-2013Lattice mismatch-induced evolution of microstructural properties in FePt filmsDong, K.F.; Li, H.H.; Chen, J.S. 
9-Jan-2013Lattice relaxation and its impact on magnetic properties of FePt thin filmLi, H.H.; Dong, K.F.; Hu, J.F.; Zhou, T.J.; Chow, G.M. ; Chen, J.S. 
9-Jan-2013Lattice relaxation and its impact on magnetic properties of FePt thin filmLi, H.H.; Dong, K.F.; Hu, J.F.; Zhou, T.J.; Chow, G.M. ; Chen, J.S. 
Aug-2012Nanocomposite L1 0 FePt-SiN x and FePt-SiN x-C films with large coercivity and small grain size on a TiN intermediate layerDong, K.F.; Li, H.H.; Peng, Y.G.; Ju, G.; Chow, G.M. ; Chen, J.S. 
2012Thickness dependent evolution of microstructure and magnetic properties of L10 (001) FePt films grown on TiN intermediate layerLi, H.H.; Dong, K.F.; Hu, J.F.; Zhou, T.J.; Chow, G.M. ; Chen, J.S. 
2012Thickness dependent evolution of microstructure and magnetic properties of L10 (001) FePt films grown on TiN intermediate layerLi, H.H.; Dong, K.F.; Hu, J.F.; Zhou, T.J.; Chow, G.M. ; Chen, J.S. 
1-Apr-2012Well-isolated L1 0 FePt-SiN x-C nanocomposite films with large coercivity and small grain sizeDong, K.F.; Li, H.H.; Peng, Y.G.; Ju, G.; Chow, G.M. ; Chen, J.S.