Kuk, Song-Hyeon Ko, Kyul Kim, Bong Ho Kim, Joon Pyo Han, Jae-Hoon Kim, Sang-Hyeon 2025-01-23T06:30:19Z 2025-01-23T06:30:19Z 2025-01-23 2025-01 2168-6734 https://pubs.kist.re.kr/handle/201004/151643 Ferroelectric polarization charge in doped-HfO2 such as HfZrOx (HZO) has a high surface density (similar to 10(14) cm(-2)) compared to the channel carrier (similar to 10(13) cm(-2)), thereby, ferroelectric polarization induces high electric field near the channel surface, critically impacting on the channel carrier behaviors in metal-ferroelectric-insulator-semiconductor (MFIS) ferroelectric field-effect-transistor (FEFET). In this context, channel mobility degradation by ferroelectric polarization and trapped charges will become a concern, because it is well-known that a huge number of charges (similar to 10(14) cm(-2)) are trapped at the gate stack. Especially, channel mobility during the read operation is required to be discussed, because FEFETs are typically targeted for non-volatile memory applications. In this work, we show that channel mobility (mu(ch)) and surface inversion carrier density (N-s,N-inv) in the n-channel FEFET (nFEFET) during read can be significantly different in the multi-level-cell (MLC) operation. This indicates that trapped carriers significantly degrade mobility and the degradation has a "history" effect, revealing that mu(ch) and N-s,N-inv are determined by overlapped effects of ferroelectric polarization and trapped charges. In addition, it is suggested that ferroelectric polarization induces remote phonon scattering. The complicated device physics of the MFIS FEFET indicates that channel mobility should be carefully modeled in the device simulation. English Institute of Electrical and Electronics Engineers Inc. Channel Mobility and Inversion Carrier Density in MFIS FEFET: Deep Insights Into Device Physics for Non-Volatile Memory Applications Article 10.1109/JEDS.2024.3507379 1 IEEE Journal of the Electron Devices Society, v.13, pp.8 - 14 IEEE Journal of the Electron Devices Society 13 8 14 N scie 001395306300006 2-s2.0-85210533288 Engineering, Electrical & Electronic Engineering Article LAYER MOBILITY SI MOSFETS UNIVERSALITY Ferroelectric transistor memory device mobility device physics charge trapping reliability