Thermal stress evaluation of a PCRAM material Ge2Sb 2Te5
K.N. Chen, L. Krusin-Elbaum, et al.
NVSMW 2006
Single-crystal TiN(111) layers, 45 nm thick, were grown on MgO(111) by ultrahigh vacuum reactive magnetron sputter deposition in pure N2 discharges at Ts = 700°C. Epitaxial Al(111) overlayers, 160 nm thick, were then deposited at Ts = 100°C in Ar without breaking vacuum. Interfacial reactions and changes in bilayer microstructure due to annealing at 620 and 650°C were investigated using x-ray diffraction and transmission electron microscopy (TEM). The interfacial regions of samples annealed at 620°C consist of continuous ≃7-nm-thick epitaxial wurtzite-structure AlN(0001) layers containing a high density of stacking faults, with ≃ 22 nm thick tetragonal Al3Ti(112) overlayers. Surprisingly, samples annealed at the higher temperature are more stable against Al3Ti formation. TEM analyses of bilayers annealed at 650°C (10°C below the Al melting point!) reveal only the self-limited growth of an ≃3-nm-thick interfacial layer of perfect smooth epitaxial wurtzite-structure AlN(0001) which serves as an extremely effective deterrent for preventing further interlayer reactions. © 2001 American Institute of Physics.
K.N. Chen, L. Krusin-Elbaum, et al.
NVSMW 2006
C. Lavoie, C. Coia, et al.
DIMAT 2004
C.-C. Yang, T. Spooner, et al.
IITC 2006
D. Deduytsche, C. Detavernier, et al.
Journal of Vacuum Science and Technology B: Microelectronics and Nanometer Structures