Dry sequential process of photochemical etching and surface passivation of In0.52Al0.48As using HBr and H2S

Habibi, S.

doi:10.1116/1.588173

Cited by 3 publications

(1 citation statement)

References 13 publications

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“…4 Several characterization techniques have been used to probe the properties of the passivated surfaces. 5,6 The uniformity of passivation at submicron scale, however, has rarely been studied. As the device dimensions decrease to the nanoscale, the surface properties and uniformity of these properties at the submicron scale become increasingly important.…”

Section: ϫ2mentioning

confidence: 99%

A near-field scanning optical microscopy study of the uniformity of GaAs surface passivation

Liu

Kuech

1996

Applied Physics Letters

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We have achieved spatially resolved photoluminescence ͑PL͒ from metalorganic vapor phase epitaxy ͑MOVPE͒ grown GaAs surfaces by near-field scanning optical microscopy ͑NSOM͒. We have performed the topography, reflection, and PL measurements by NSOM combined with the topography measurements by atomic force microscopy ͑AFM͒ on the as-grown and (NH 4 ͒ 2 S-passivated GaAs samples. The uniformity of GaAs with a thin Al 0.65 Ga 0.35 As cap layer has also been studied and compared with the ͑NH 4 ͒ 2 S treated samples. We found the submicron scale variations in PL intensity which were not correlated to the topographic features. The PL intensity variation was related to the changes in the surface state density. ), particularly after exposure to air.1 These surface states are nonradiative recombination centers which impact the performance of many minority carrier devices, such as light emitting diodes, solar cells, heterojunction bipolar transistors, and lasers. This high density of surface states leads to Fermi level pinning near-midgap, resulting in difficulties in the Ohmic contact formation and in the fabrication of metal-insulatorsemiconductor field-effect transistors ͑MISFET͒.2 In recent years, many studies have focused on the effective passivation of the compound semiconductor surfaces.3 ͑NH 4 ͒ 2 S passivation of GaAs surfaces has been proven to be very successful and easy to implement. 4 Several characterization techniques have been used to probe the properties of the passivated surfaces. 5,6 The uniformity of passivation at submicron scale, however, has rarely been studied. As the device dimensions decrease to the nanoscale, the surface properties and uniformity of these properties at the submicron scale become increasingly important.7 Near-field scanning optical microscopy ͑NSOM͒ has been demonstrated to be a powerful tool for performing optical measurements at a much higher spatial resolution than conventional far-field optics. 8 In this work, the spatially resolved PL measurements on the passivated GaAs surfaces, using NSOM, are presented. These quantitative measurements provide information on the surface state density variation as well as the independently determined surface morphologies of the passivated surface. Measurements of the optical uniformity of ͑NH 4 ͒ 2 S-passivated surfaces are compared to control samples consisting of a thin Al 0.65 Ga 0.35 As cap layer on an epitaxial GaAs layer. This structure serves as an alternative GaAs surface passivation. The epitaxially grown GaAs-Al x Ga 1Ϫx As heterostructure has a low interface state density and interface recombination velocity 9,10 and should have more uniform properties than the free GaAs surface.The NSOM is a home-built system with a commercial scanning control unit.11 All the experiments are done in illumination mode where the NSOM tip serves as the excitation source. The optical collector is a parabolic reflector with the tip at its focal point, maximizing the collection efficiency. A low level He-Ne laser light is used for the standard shear f...

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Section: ϫ2mentioning

confidence: 99%

A near-field scanning optical microscopy study of the uniformity of GaAs surface passivation

Liu

Kuech

1996

Applied Physics Letters

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X-ray photoelectron spectroscopic study of KrF excimer laser nitrided InP surface

Akane

Sugioka

Midorikawa

et al. 2001

Journal of Applied Physics

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Articles you may be interested inFabrication and characterization of metal-insulator-semiconductor structures by direct nitridation of InP surfaces Appl. Phys. Lett. 96, 012107 (2010); 10.1063/1.3269906 X-ray photoelectron spectroscopic study on sapphire nitridation for GaN growth by hydride vapor phase epitaxy: Nitridation mechanism Stability of sulfur-treated InP surface studied by photoluminescence and x-ray photoelectron spectroscopy Nitridation of InP is performed by KrF excimer laser irradiation in an NH 3 ambient. The N-In and N-P bonds are formed in the irradiated area in proportion to the number of laser pulses. The x-ray photoelectron spectroscopy spectra of the nitrided samples contain a small concentration of oxide components after aging in an air atmosphere than nonirradiated samples

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The Uniformity Of Surface Passivation After (NH ₄)₂S Treatment Studied By Near-Field Scanning Optical Microscopy

Liu

Kuech

1995

MRS Proc.

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We have achieved spatially resolved room temperature photoluminescence (PL) from MOVPE GaAs (001) surfaces by Near-Field Scanning Optical Microscopy (NSOM). The PL intensity variation was related to the change of surface state density. Using this technique, the uniformity of surface passivation after (NH 4)2S treatment has been studied. We have performed the topography, reflection and PL measurements by NSOM as well as the topography measurements by Atomic Force Microscopy (AFM) on the as grown, etched and sulfur passivated GaAs samples. The uniformity of GaAs with a thin Al0.65Ga0.35As cap layer has also been studied and compared with the (NH 4)2S treatment. We found the sub-micron scale variations in PL intensity which were not correlated to the topographic features. Theoretical modeling has been used to obtain semi-quantitative analysis of the experimental results.

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Dry sequential process of photochemical etching and surface passivation of In0.52Al0.48As using HBr and H2S

Cited by 3 publications

References 13 publications

A near-field scanning optical microscopy study of the uniformity of GaAs surface passivation

A near-field scanning optical microscopy study of the uniformity of GaAs surface passivation

X-ray photoelectron spectroscopic study of KrF excimer laser nitrided InP surface

The Uniformity Of Surface Passivation After (NH ₄)₂S Treatment Studied By Near-Field Scanning Optical Microscopy

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Dry sequential process of photochemical etching and surface passivation of In0.52Al0.48As using HBr and H2S

Cited by 3 publications

References 13 publications

A near-field scanning optical microscopy study of the uniformity of GaAs surface passivation

A near-field scanning optical microscopy study of the uniformity of GaAs surface passivation

X-ray photoelectron spectroscopic study of KrF excimer laser nitrided InP surface

The Uniformity Of Surface Passivation After (NH 4)2S Treatment Studied By Near-Field Scanning Optical Microscopy

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Product

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The Uniformity Of Surface Passivation After (NH ₄)₂S Treatment Studied By Near-Field Scanning Optical Microscopy