Papers by Keyword: Electrically Detected Magnetic Resonance

Abstract: We explore the magnetic sensing capabilities of two 4H-SiC n⁺p diodes fabricated by NASA Glenn which only differ in the implanted ion species, nitrogen and phosphorus, and the implant activation annealing time. We use low-and high-field electrically detected magnetic resonance (EDMR) to investigate the defect structure used to sense magnetic fields as well as to evaluate the sensitivity. In addition, we expose these devices to high energy electron radiation to evaluate the defect sensing capability in a harsh radiation environment. The results from this work will allow us to tailor our processing methods to design a more optimal 4H-SiC pn diode for magnetic field sensing in harsh environments.

Abstract: We study the structure of SiC/SiO₂ interface defects and the effects of negative bias temperature stress (NBTS) in lateral 4H silicon carbide (SiC) PMOSFETs. Our devices have 90 nm thick SiO₂ gate oxides thermally grown in N₂O ambient at 1280°C on n-type SiC. We investigate virgin (unstressed) and stressed devices using two different techniques: (i) for electrical characterization, we use the direct-current current-voltage (DCIV) technique [1] which measures a recombination current via interface defects and charge pumping (CP) which measures the number of interface defects within a certain range of the SiC band gap; (ii) to study the structure of the defects, we use electrically detected magnetic resonance (EDMR) via spin dependent recombination (SDR) [2]. The elevated temperature during NBTS is provided by in-situ heated test structures. This is the first EDMR study of p-doped SiC MOSFETs and the first negative bias temperature instability (NBTI) study of SiC MOSFETs using in-situ (on-chip) heating during stress.

Abstract: We have extended a magnetic resonance based study of MOS devices to include electrically detected magnetic resonance (EDMR) measurements of fully processed MOSFETs from three facilities as well as conventional electron paramagnetic resonance (EPR) resonance measurements on simple SiC/SiO2 structures. We find close similarity between the conventional EPR and the EDMR spectra.