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High-resolution electron microscopy of Cu/MgO and Pd/MgO interfaces
Ultramicroscopy, 1994Abstract Cu/(1 1 1)MgO and Pd/(1 1 1)MgO interfaces with a cube-on-cube relation are produced by the internal oxidation technique. High-resolution transmission electron microscopy has been applied to study the interface structures of Cu/(1 1 1)MgO and Pd/(1 1 1)MgO.
F.-R. Chen +3 more
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Microwave dielectric properties of Ti4+/MgO and Ni2+/MgO
Applied Physics A Solids and Surfaces, 1985The dielectric properties of titanium-doped magnesium oxide (Ti/MgO) and nickel-doped magnesium oxide (Ni/MgO) single crystals have been measured in the range of temperature from 300 to 450 K at the microwave frequency of 9.31 GHz. For both crystals the dielectric properties are found similar.
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Applied Physics Letters, 2012
We investigated perpendicular CoFeB-MgO magnetic tunnel junctions (MTJs) with a recording structure consisting of two CoFeB-MgO interfaces, MgO/CoFeB (1.6 nm)/Ta (0.4 nm)/CoFeB (1.0 nm)/MgO. Thermal stability factor of MTJ with the structure having junction size of 70 nmφ was increased by a factor of 1.9 from the highest value of perpendicular MTJs ...
H. Sato +5 more
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We investigated perpendicular CoFeB-MgO magnetic tunnel junctions (MTJs) with a recording structure consisting of two CoFeB-MgO interfaces, MgO/CoFeB (1.6 nm)/Ta (0.4 nm)/CoFeB (1.0 nm)/MgO. Thermal stability factor of MTJ with the structure having junction size of 70 nmφ was increased by a factor of 1.9 from the highest value of perpendicular MTJs ...
H. Sato +5 more
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2016
?????????????????????? ?????????????? ?????????????????????? ???????????????? ???? ??????????????????, ???????????????????? ??????????????????????, ???????????????????????????? ?? ???????????????? ???????????????????? K1C ???????????????????????? MgO ???????????????? ???? 100 ??????, ???????????????????? ????????????????????-?????????????? ?????????????
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?????????????????????? ?????????????? ?????????????????????? ???????????????? ???? ??????????????????, ???????????????????? ??????????????????????, ???????????????????????????? ?? ???????????????? ???????????????????? K1C ???????????????????????? MgO ???????????????? ???? 100 ??????, ???????????????????? ????????????????????-?????????????? ?????????????
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2019
???????????????????? ???????????????? ?????????????????????????? ???????????????????????????? ???????????????????????? ???????????? ZnO/MgO ?? ???????????????????????????? ???????????????? ???????????????????? ZnO ?????????? ?????????????????? ???? ???? ???????????????????????? ???????????????? ???? ????????????????. ???????????????? ???????????????????
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???????????????????? ???????????????? ?????????????????????????? ???????????????????????????? ???????????????????????? ???????????? ZnO/MgO ?? ???????????????????????????? ???????????????? ???????????????????? ZnO ?????????? ?????????????????? ???? ???? ???????????????????????? ???????????????? ???? ????????????????. ???????????????? ???????????????????
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2015
The procedure of preparation of ZnO/MgO solid-phase systems with the controllable size of ZnO nanoparticles by their deposition from colloidal solutionon carrier material is proposed. A possibility is demonstrated to govern the size of deposited ZnO nanoparticles from 3 nm to 7 nm varying the conditions of their synthesis (reagent concentrations ...
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The procedure of preparation of ZnO/MgO solid-phase systems with the controllable size of ZnO nanoparticles by their deposition from colloidal solutionon carrier material is proposed. A possibility is demonstrated to govern the size of deposited ZnO nanoparticles from 3 nm to 7 nm varying the conditions of their synthesis (reagent concentrations ...
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2016
?? ?????????????????????????? ???????? ?????????????????????? ???????????????????? ?????????????????????????? ?????????? ?? ?????????????????????????????? ?????????? ?????????????????????????????????????? MgO-CaO-???????????? ?????????? ???????? ?????????????????????? ???????????? ??????????????????. ???????????????? ???????????????????????? ???????????
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?? ?????????????????????????? ???????? ?????????????????????? ???????????????????? ?????????????????????????? ?????????? ?? ?????????????????????????????? ?????????? ?????????????????????????????????????? MgO-CaO-???????????? ?????????? ???????? ?????????????????????? ???????????? ??????????????????. ???????????????? ???????????????????????? ???????????
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Initial Sintering of MgO and LiF‐Doped MgO
Journal of the American Ceramic Society, 1973F. R. WERMUTH, W. J. KNAPP
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2017
MgO and MgO composite (MgO·Al2O3) are discussed in this chapter. The value of the stress exponent determined as n = 3.3 suggests a dislocation model as the rate-controlling creep mechanism. In the absence of glide the dislocation motion is that of climb, which is the rate-controlling mechanism.
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MgO and MgO composite (MgO·Al2O3) are discussed in this chapter. The value of the stress exponent determined as n = 3.3 suggests a dislocation model as the rate-controlling creep mechanism. In the absence of glide the dislocation motion is that of climb, which is the rate-controlling mechanism.
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