D. Bonnevie scite author profile

In0.53Ga0.47As and InP were grown on InP substrate by using dimeric molecules of arsenic and phosphorus. A Riber cracker cell and a laboratory designed gas cell were used. Cracking rate inside the two kinds of cells was studied by a modulation beam mass spectrometry technique (MBMS). Cracking rate up to 95% was obtained for the gas cell. The ratio M2/M4 in the flux reaches 103. The use of As2 species for In0.53Ga0.47As growth allows a saving of arsenic compared with As4 species. A reduction of the incorporation rate of carbon is observed. Photoluminescence efficiency is increased by a factor of 5. PIN photodiodes exibit low dark current down to 25 nA at−10 V in As2 grown InGaAs, 103 less than in As4 grown ternary material, on mesa diameter of 170 μm. We describe growth conditions of InP by using cracker cell and gas cell as phosphorus sources. Gas source seems to be a promising phosphorus source due to its large autonomy and hydrogen pressure which favors PH3 recombination and impurities reduction.

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Low-threshold 1.5μm DFB laser grown by GSMBE

Fernier

Artigue

Bonnevie

et al. 1989

Electron. Lett. (UK)

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Optoelectronic devices by gas source molecular beam epitaxy

Goldstein

Starck

Emery

et al. 1992

Journal of Crystal Growth

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Electro-optic polarisation convertor on (110) InP

Zamkotsian

Artigue

Peyre

et al. 1990

Electron. Lett. (UK)

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D. Bonnevie

1.55 /spl mu/m polarisation independent semiconductor optical amplifier with 25 dB fiber to fiber gain

Molecular beam epitaxy of In0.53Ga0.47As and InP on InP by using cracker cells and gas cells

Low-threshold 1.5μm DFB laser grown by GSMBE

Optoelectronic devices by gas source molecular beam epitaxy

Electro-optic polarisation convertor on (110) InP

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