Anne Henry scite author profile

With low energy electron irradiation in the 80–250keV range, we were able to create only those intrinsic defects related to the initial displacements of carbon atoms in the silicon carbide lattice. Radiation induced majority and minority carrier traps were analyzed using capacitance transient techniques. Four electron traps (EH1, Z1∕Z2, EH3, and EH7) and one hole trap (HS2) were detected in the measured temperature range. Their concentrations show linear increase with the irradiation dose, indicating that no divacancies or di-interstitials are generated. None of the observed defects was found to be an intrinsic defect–impurity complex. The energy dependence of the defect introduction rates and annealing behavior are presented and possible microscopic models for the defects are discussed. No further defects were detected for electron energies above the previously assigned threshold for the displacement of the silicon atom at 250keV.

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Chloride-Based CVD Growth of Silicon Carbide for Electronic Applications

Pedersen

et al. 2011

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Growth of High Quality Epitaxial Rhombohedral Boron Nitride

Chubarov

Pedersen

Högberg

et al. 2012

Crystal Growth & Design

113

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Epitaxial growth of sp 2 -hybridized boron nitride (sp 2 BN) films on sapphire substrates is demonstrated in a hot wall chemical vapor deposition reactor at the temperature of 1500 °C, using triethyl boron and ammonia as precursors. The influence of the main important process parameters, temperature, N/B ratio, B/H 2 ratio, and carrier gas composition on the quality of the grown layers is investigated in detail. X-ray diffraction shows that epitaxial rhombohedral BN (r-BN) film can be deposited only in a narrow process parameter window; outside this window either turbostratic-BN or amorphous BN is favored if BN is formed. In addition, a thin strained AlN buffer layer is needed to support epitaxial growth of r-BN film on sapphire since only turbostratic BN is formed on sapphire substrate. The quality of the grown film is also affected by the B/H 2 ratio as seen from a change of the spacing between the basal planes as revealed by X-ray diffraction. Time-of-flight elastic recoil detection analysis shows an enhancement of the C and O impurities incorporation at lower growth temperatures. The gas phase chemistry for the deposition is discussed as well as the impact of the growth rate on the quality of the BN film.

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Growth rate predictions of chemical vapor deposited silicon carbide epitaxial layers

Danielsson

Henry

Janzén

2002

Journal of Crystal Growth

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Very high growth rate of 4H-SiC epilayers using the chlorinated precursor methyltrichlorosilane (MTS)

Pedersen

Leone

Henry

et al. 2007

Journal of Crystal Growth

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Anne Henry

Deep levels created by low energy electron irradiation in 4H-SiC

Chloride-Based CVD Growth of Silicon Carbide for Electronic Applications

Growth of High Quality Epitaxial Rhombohedral Boron Nitride

Growth rate predictions of chemical vapor deposited silicon carbide epitaxial layers

Very high growth rate of 4H-SiC epilayers using the chlorinated precursor methyltrichlorosilane (MTS)

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