Kensuke Akiyama scite author profile

Magnesium oxide (MgO) films were prepared on a Si(001) substrate by the rf sputtering method at low ambient pressure using a metal target. The X-ray diffraction verified the epitaxial growth of MgO( 001) with a cubic-on-cubic arrangement despite the large lattice mismatch between MgO(100) and Si(100), and contractions of the unit cell along both the out-of-plane and in-plane directions. Epitaxial growth is described as a domain epitaxial relation with a domain mismatch consisting of (k × ) lattice units of the Si substrate and (m × n) ones of the MgO film. To visualize the domain mismatch with combinations of k, , m and n, coherent strains were depicted on polar coordinates. The domain mismatch was estimated as a small value, which was further decreased by the contraction of the unit cell in the epitaxial MgO film.

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In situ gravimetric monitoring of decomposition rate on the surface of (0001) c‐plane sapphire for the high temperature growth of AlN

Akiyama

Araki

Murakami

et al. 2007

Phys. Status Solidi (c)

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The thermal stability of (0001) sapphire was investigated at atmospheric pressure using the in situ gravimetric monitoring (GM) method. The weight change of a sapphire substrate was monitored at various hydrogen partial pressures in carrier gas (PH2) at temperatures over 1200 °C. Although the sapphire substrate was stable up to 1450 °C in an inert carrier gas (PH2 = 0.0 atm), sapphire decomposition started to occur at 1200 °C in H 2 carrier gas (PH2 = 1.0 atm). Moreover the activation energy and order of reaction for sapphire surface decomposition changed at approximately 1300 °C. These results indicate that the rate-limiting reaction for sapphire decomposition shifts near 1300 °C. 1 Introduction Group-III nitrides such as InN, GaN and AlN are very promising materials for potential use in optical devices and high-speed electronic devices. These materials and their alloys, such as InGaN and AlGaN, have a direct-transition band structure and cover the energy band gap range from 0.7 to 6.2 eV, which corresponds to the emission wavelength range from 200 nm (UV) to 1770 nm (IR). In particular, since AlN has the widest band gap energy (6.2 eV) and high thermal conductivity (3.3 W m

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Large constriction of lattice constant in epitaxial magnesium oxide thin film: Effect of point defects on lattice constant

Kaneko

Nagano

Akiyama

et al. 2010

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RF Magnetron Sputtering Growth of Epitaxial SrRuO₃ Films with High Conductivity

Kamo

Nishida

Akiyama

et al. 2007

jjap

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SrRuO3 films were grown on (001)SrTiO3 single crystal substrates by rf magnetron sputtering under various total pressures, and their crystal structure, room temperature resistivity, and temperature dependency of resistivity were investigated. High-resolution X-ray diffraction (XRD) analysis revealed that the unit cell volume of these films decreased with increasing total pressure from 1.3 to 27 Pa and was almost constant above 27 Pa corresponding to that of bulk SrRuO3. SrRuO3 films deposited under a total pressure of 27 Pa showed the lowest room temperature resistivity, i.e., 250 µΩ·cm, almost the same as the reported one of the SrRuO3 single crystal. This film also showed a positive temperature dependency of resistivity with a temperature dependency change at about 150 K, which was also in good agreement with the reported one of the SrRuO3 single crystal.

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Kensuke Akiyama

Polarity dependence of AlN {0 0 0 1} decomposition in flowing H2

Cubic-on-cubic growth of a MgO(001) thin film prepared on Si(001) substrate at low ambient pressure by the sputtering method

In situ gravimetric monitoring of decomposition rate on the surface of (0001) c‐plane sapphire for the high temperature growth of AlN

Large constriction of lattice constant in epitaxial magnesium oxide thin film: Effect of point defects on lattice constant

RF Magnetron Sputtering Growth of Epitaxial SrRuO₃ Films with High Conductivity

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Kensuke Akiyama

Polarity dependence of AlN {0 0 0 1} decomposition in flowing H2

Cubic-on-cubic growth of a MgO(001) thin film prepared on Si(001) substrate at low ambient pressure by the sputtering method

In situ gravimetric monitoring of decomposition rate on the surface of (0001) c‐plane sapphire for the high temperature growth of AlN

Large constriction of lattice constant in epitaxial magnesium oxide thin film: Effect of point defects on lattice constant

RF Magnetron Sputtering Growth of Epitaxial SrRuO3 Films with High Conductivity

Contact Info

Product

Resources

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RF Magnetron Sputtering Growth of Epitaxial SrRuO₃ Films with High Conductivity