2022
DOI: 10.1063/5.0101579
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Controlling Fermi level pinning in near-surface InAs quantum wells

Abstract: Hybrid superconductor–semiconductor heterostructures are a promising platform for quantum devices based on mesoscopic and topological superconductivity. In these structures, a semiconductor must be in close proximity to a superconductor and form an Ohmic contact. This can be accommodated in narrow bandgap semiconductors, such as InAs, where the surface Fermi level is positioned close to the conduction band. In this work, we study the structural properties of near-surface InAs quantum wells and find that surfac… Show more

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Cited by 12 publications
(14 citation statements)
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“…We use a layer structure typical of gatemon qubits as in figure 1 and refer to this structure as the 'device stack' [17,20,21]. To model the device stack in COMSOL, we specified the following electronic properties of [13].…”
Section: Classical Modeling 221 Semiconductor 2deg Calculationsmentioning
confidence: 99%
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“…We use a layer structure typical of gatemon qubits as in figure 1 and refer to this structure as the 'device stack' [17,20,21]. To model the device stack in COMSOL, we specified the following electronic properties of [13].…”
Section: Classical Modeling 221 Semiconductor 2deg Calculationsmentioning
confidence: 99%
“…We abbreviate the fixed composition ternary III-V alloys In0.81Ga0.19As and In0.81Al0.19As, as InGaAs and InAlAs, respectively. Not shown or modeled is the superlattice graded buffer layer between InP and InAlAs [17,20,21]. the semiconductor materials and the dielectric constant of the gate oxide: electron and hole effective conduction band masses m * n(p),c , low-field mobilities µ lf n(p) , band gap energies E g , conduction band offsets ∆E c between neighboring semiconductors, dielectric constants ε r , and effective densities of states for the conduction and valence bands N c(v) .…”
Section: Classical Modeling 221 Semiconductor 2deg Calculationsmentioning
confidence: 99%
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“…The devices are fabricated on a superconductorsemiconductor heterostructure grown via molecular beam epitaxy [51][52][53][54]; details of the growth are discussed in the Supplementary Material. The weak link of the JJ is a high-mobility InAs 2DEG grown near the surface and contacted in-situ by a thin aluminum film.…”
Section: Device Designmentioning
confidence: 99%
“…Josephson junctions (JJs) fabricated on semiconductor structures with epitaxially grown superconductors have recently attracted attention due to their propitious characteristics and applications in quantum computing. In the presence of a Zeeman field or a phase bias and a strong spin–orbit coupling (SOC) interaction, such high-quality JJs have shown signatures of topological superconductivity, which can host Majorana zero modes useful for fault-tolerant quantum computation. , However, robust implementation and signatures of topological superconductivity remain ambiguous. …”
Section: Introductionmentioning
confidence: 99%