In Situ SiO₂ Passivation of Epitaxial (100) and (110)InGaAs by Exploiting TaSiO_x Atomic Layer Deposition Process

Abstract: In this work, an in situ SiO 2 passivation technique using atomic layer deposition (ALD) during the growth of gate dielectric TaSiO x on solid-source molecular beam epitaxy grown (100)In x Ga 1– x As and (110)In x Ga 1– x As on InP substrates is reported. X-ray reciprocal space mapping demonstrated quasi-lattice matched In … Show more

“…The structural analyses of these heterostructures can be found elsewhere. 5,16,33 A Probing facets in (110) InGaAs/InP heterostructures Atomic force microscopy analysis was performed from the surface of orientation-specific InGaAs/InP heterostructures. Fig.…”

“…Here, the temperature is referred to as the thermocouple temperature. The orientation-specific reduction of the growth temperature and group V/III ratios 16,33 were essential in order to reduce the surface faceting and surface adatom mobility during each heterostructure material synthesis. Each InGaAs/InP heterostructure was grown inside the group III-V reactor.…”

“…The details of these properties were reported in our earlier publications. 5,13,15,16,33 The surface morphology from the surface of each InGaAs/InP heterostructure was determined by atomic force microscopy (AFM). The carrier lifetimes were evaluated by the photoconductivity decay method 42 at the National Renewable Energy Laboratory, wherein the sample conductivity due to the excess carriers generated by laser excitation (wavelengths of 1500 nm and 1800 nm) was monitored via the microwave power reflected from each sample surface.…”

“…Here, the lattice matched epitaxial Ge and InGaAs layers were realized on GaAs substrate with an intermediate AlAs buffer layer and InP substrate, respectively. The respective substrate orientations were used for synthesizing orientation-specific Ge or InGaAs layers 16,33.…”

Probing crystallographic orientation-specific carrier lifetimes in epitaxial Ge/AlAs and InGaAs/InP heterostructures

“…The structural analyses of these heterostructures can be found elsewhere. 5,16,33 A Probing facets in (110) InGaAs/InP heterostructures Atomic force microscopy analysis was performed from the surface of orientation-specific InGaAs/InP heterostructures. Fig.…”

“…Here, the temperature is referred to as the thermocouple temperature. The orientation-specific reduction of the growth temperature and group V/III ratios 16,33 were essential in order to reduce the surface faceting and surface adatom mobility during each heterostructure material synthesis. Each InGaAs/InP heterostructure was grown inside the group III-V reactor.…”

“…The details of these properties were reported in our earlier publications. 5,13,15,16,33 The surface morphology from the surface of each InGaAs/InP heterostructure was determined by atomic force microscopy (AFM). The carrier lifetimes were evaluated by the photoconductivity decay method 42 at the National Renewable Energy Laboratory, wherein the sample conductivity due to the excess carriers generated by laser excitation (wavelengths of 1500 nm and 1800 nm) was monitored via the microwave power reflected from each sample surface.…”

“…Here, the lattice matched epitaxial Ge and InGaAs layers were realized on GaAs substrate with an intermediate AlAs buffer layer and InP substrate, respectively. The respective substrate orientations were used for synthesizing orientation-specific Ge or InGaAs layers 16,33.…”

Probing crystallographic orientation-specific carrier lifetimes in epitaxial Ge/AlAs and InGaAs/InP heterostructures

“…This deposition process promoted the formation of an in situ interfacial SiO x layer at the TaSiO x /Ge interface. 50 Moreover, unlike the more thermodynamically stable and chemically robust native Si oxides, nonstoichiometric, easily-reduced native Ge oxides (i.e., GeO x ) have been known to correlate to a high density of (potentially charged) interface states. Furthermore, the water solubility of native Ge oxides, in addition to their low k value(s), frustrate the ability to effectively scale the equivalent oxide thickness (EOT) of composite dielectrics utilizing GeO x (either native or intentionally re-grown) as an interfacial passivating layer (IPL).…”

Atomic layer deposited tantalum silicate on crystallographically-oriented epitaxial germanium: interface chemistry and band alignment

Surface Orientated < 100 > , < 110 > , and < 111 > Silicon-based Double-Gate Tunnel-FET for Linearity and Analog/RF Performance Analysis