Litcius/Paper detail

Sensitivity of 2DEG-based Hall-effect sensors at high temperatures

Hannah S. Alpert, Caitlin A. Chapin, Karen M. Dowling, Savannah R. Benbrook, Helmut Köck, Udo Ausserlechner, Debbie G. Senesky

2020Review of Scientific Instruments48 citationsDOI

Abstract

The magnetic sensitivity of Hall-effect sensors made of InAlN/GaN and AlGaN/GaN heterostructures was measured between room temperature and 576 °C. Both devices showed decreasing voltage-scaled magnetic sensitivity at high temperatures, declining from 53 mV/V/T to 8.3 mV/V/T for the InAlN/GaN sample and from 89 mV/V/T to 8.5 mV/V/T for the AlGaN/GaN sample, corresponding to the decreasing electron mobility due to scattering effects at elevated temperatures. Alternatively, current-scaled sensitivities remained stable over the temperature range, only varying by 13.1% from the mean of 26.3 V/A/T and 10.5% from the mean of 60.2 V/A/T for the InAlN/GaN and AlGaN/GaN samples, respectively. This is due to the minimal temperature dependence of the electron sheet density on the 2-dimensional electron gas (2DEG). Both devices showed consistency in their voltage- and current-scaled sensitivity over multiple temperature cycles as well as nearly full recovery when returned to room temperature after thermal cycling. Additionally, an AlGaN/GaN sample held at 576 °C for 12 h also showed nearly full recovery at room temperature, further suggesting that GaN-based Hall-effect sensors are a good candidate for use in high temperature applications.

Topics & Concepts

Materials scienceHeterojunctionAtmospheric temperature rangeHall effectSensitivity (control systems)OptoelectronicsFermi gasVoltageCondensed matter physicsAnalytical Chemistry (journal)ElectronMagnetic fieldElectrical engineeringPhysicsChemistryElectronic engineeringChromatographyMeteorologyQuantum mechanicsEngineeringMagnetic Field Sensors TechniquesPlasma Diagnostics and ApplicationsZnO doping and properties