J. Comas scite author profile

Etching studies involving citric acid/hydrogen peroxide false(C6H8O7:H2O2false) at volume ratios from 0.5:1 to 50:1 were found to provide good selective etching of various III‐V semiconductor materials grown on normalGaAs and normalInP substrates using molecular beam epitaxy. Both selective and uniform (nonselective) etching regions were found between these material systems by choosing different concentration volume ratios of citric acid/hydrogen peroxide false(χC6H8O7:1H2O2false) . Etchant selectivities, defined as a ratio of the etch rates, for the normalGaAs‐normalbased materials were measured to be as high as 116 for normalGaAs/As0.3Ga0.7AS and 120 for In0.2Ga0.8normalAs/Al0.3Ga0.7normalAs . In addition, the normalInP system had selectivities of approximately 60 and 100 for In0.53Ga0.47normalAs/In0.52Al0.48normalAs and In0.52Al0.48normalAs/normalInP , with the highest selectivity of 473 found for In0.53Ga0.47normalAs/normalInP . The citric acid/hydrogen peroxide system can be used as a stop etch for normalInP‐normalbased devices, as normalInP is virtually unaffected by this etchant. Finally, citric acid/hydrogen peroxide can be used to preferentially etch these materials through a photoresist mask, since it does not erode photoresist at any volume ratio.

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Photoreflectance characterization of interband transitions in GaAs/AlGaAs multiple quantum wells and modulation-doped heterojunctions

Glembocki

Shanabrook

Bottka

et al. 1985

209

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The optical modulation technique of photoreflectance (PR) has been applied to characterize the interband transitions in GaAs/AlGaAs multiple quantum wells (MQW) and modulation-doped heterojunctions at room temperature. The spectra of the MQW show ‘‘derivativelike’’ reflectance features due to allowed interband transitions from heavy and light hole subbands to conduction subbands, and the E0(Γ8,v→Γ6,c) transitions of the AlGaAs layers. Our data are consistent with a square well calculation using a conduction-band offset of 60% of the band-gap discontinuity. For modulation-doped heterojunctions, a correlation is observed between a PR feature approximately 18 meV above the GaAs fundamental gap and the presence of a two-dimensional electron gas.

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Coloration Induced in MgO by MeVNe+20Bombardment

1972

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Study of ion-implantation damage in GaAs:Be and InP:Be using Raman scattering

Rao

Sundaram

Schmidt

et al. 1983

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The Raman spectra of GaAs and InP implanted with Be ions with fluences ranging from 5 X 10 12 to I X 10 16 cm -2 were investigated. A marked difference in the behavior of the TO and La modes with respect to broadening with fluence was observed and the results indicate that this is caused by frequency dependent anharmonic damping constants. The Raman spectra of high fluence samples are interpreted in terms of disorder-induced first-order Raman spectra due to phonons with nonzero wave vectors. The similarities between our "Reduced Raman Spectra" of the disordered form and the theoretical one-phonon density of states, are presented without introducing Gaussian broadening as suggested by earlier authors studying amorphous materials. The observations support the conclusion that the form essentially retains the short-range order of the crystalline phase; the phonon spectrum of the crystal is largely determined only by nearneighbor interactions; and the existence of a frequency-dependent coupling constant for the scattering intensity at least in the low frequency region.

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J. Comas

Binding of Shallow Donor Impurities in Quantum-Well Structures

Etch Rates and Selectivities of Citric Acid/Hydrogen Peroxide on GaAs , Al0.3Ga0.7As , In0.2Ga0.8As , In0.53Ga0.47As , In0.52Al0.48As , and InP

Photoreflectance characterization of interband transitions in GaAs/AlGaAs multiple quantum wells and modulation-doped heterojunctions

Coloration Induced in MgO by MeVNe+20Bombardment

Study of ion-implantation damage in GaAs:Be and InP:Be using Raman scattering

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