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Record high electron mobilities in high-purity GaN by eliminating C-induced mobility collapse

Shota Kaneki, Taichiro Konno, Takeshi Kimura, Kazutaka Kanegae, Jun Suda, Hajime Fujikura

2024Applied Physics Letters22 citationsDOI

Abstract

Impact of carbon impurities on the electrical properties of lightly doped n-type GaN [electron concentration ∼(1–2)×1015 cm−3 at room temperature] was investigated using temperature-dependent Hall effect measurements. GaN crystals with a threading dislocation density of (1–3)×106 cm−2 were grown by our originally developed quartz-free hydride vapor phase epitaxy method, which enabled the background Si, O, and C concentrations to be suppressed to below the mid-1014 cm−3 range. We prepared three samples with different C concentrations ([C]) by intentional C doping. The C incorporation induced severe mobility collapse at temperatures greater than 60 K, where the measured mobility decreased and deviated from the theoretical value as [C] increased. The mobility collapse was eliminated for the purest GaN crystal with [C] ∼1.4×1014 cm−3, exhibiting a record high room-temperature mobility of 1480 cm2/(V·s), as well as a record high maximum mobility of 14 300 cm2/(V·s) at 62 K. The latter was almost double the previous record. We found that the overall mobility behavior can be well reproduced by adding an empirical [C]-dependent mobility component expressed as μUNK=K/TnUNK with 1≤nUNK≤2 and K∝C−1 to the conventional mobility theory (phonon and impurity scattering). Although the mechanism of the component remains uncertain, our findings provide insight into the unsolved issue of mobility collapse.

Topics & Concepts

Electron mobilityImpurityDislocationMaterials scienceEpitaxyAtmospheric temperature rangeHall effectDopingCondensed matter physicsScatteringElectronCrystal (programming language)Phonon scatteringPhononAnalytical Chemistry (journal)Electrical resistivity and conductivityChemistryOptoelectronicsNanotechnologyOpticsPhysicsThermodynamicsOrganic chemistryLayer (electronics)Computer scienceQuantum mechanicsChromatographyProgramming languageGaN-based semiconductor devices and materialsGa2O3 and related materialsZnO doping and properties
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