Title :
Growth of α´ nitrogen martensite and Fe16N2 films using (001) silicon substrates
Author :
Clark, Trevor E. ; Visokay, Mark R. ; Zhu, Nanchang ; Sinclair, Robert
Author_Institution :
Dept. of Mater. Sci. & Eng., Stanford Univ., CA, USA
fDate :
9/1/1996 12:00:00 AM
Abstract :
In this work, epitaxial, single-phase (001) textured α´ nitrogen-martensite films have been grown successfully on (001) Si substrates with a Ag reaction-barrier layer using conventional reactive sputtering. The growth orientation was obtained by X-ray φ-scans: Si(001)||Ag(001)||α´(001)//Si[100]||Ag[100]|| α´[110]. In addition, (001) textured Fe16N2 or α´´ nitrogen-martensite which forms from an ordering of the N atoms in the α´, was detected in the films after ex-situ annealing. High resolution electron microscopy studies reveal that α´ martensite has good epitaxy with the Ag underlayer. Single-crystal formation of the martensites, however, is impeded by the intersection of Ag twins with the Ag/Fe-N interface. Single phase α´ was not detected in any of the as-deposited films grown under various substrate temperatures (10-150°C) and pressures (2-5 mTorr)
Keywords :
X-ray diffraction; annealing; electron microscopy; ferromagnetic materials; iron compounds; magnetic epitaxial layers; sputter deposition; twin boundaries; vapour phase epitaxial growth; α´ nitrogen martensite; (001) Si substrates; 10 to 150 degC; 2 to 5 mtorr; Ag; Ag reaction-barrier layer; Ag twins; Ag underlayer; Ag/Fe-N interface; Fe16N2; Fe16N2 films; FeN; HREM; Si; X-ray φ-scans; epitaxial films; ex-situ annealing; growth orientation; reactive sputtering; single-crystal formation; substrate temperatures; Annealing; Atomic layer deposition; Electron microscopy; Epitaxial growth; Impedance; Iron; Nitrogen; Semiconductor films; Sputtering; Substrates;
Journal_Title :
Magnetics, IEEE Transactions on
