A Theoretical Analysis of Ferroelectric Switching Physics in Metal/Ferroelectric/IGZO Stack Toward Interlayer-Free FeFETs

A Theoretical Analysis of Ferroelectric Switching Physics in Metal/Ferroelectric/IGZO Stack Toward Interlayer-Free FeFETs

Compared to Si, IGZO is a competitive choice for FeFET channel material, because of the interlayer-free structure, which can lead to a higher endurance. However, the ferroelectric switching mechanism of erasure remains unclear due to the lack of holes in IGZO. In this work, we present a quasi-static...

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Veröffentlicht in:IEEE electron device letters 2024-08, Vol.45 (8), p.1453-1456
Hauptverfasser: Chen, Zhuo, Ronchi, Nicolo, Tang, Hongwei, Walke, Amey M., Izmailov, Roman, Ioana Popovici, Mihaela, Van den Bosch, Geert, Rosmeulen, Maarten, Afanas'ev, Valeri V., Van Houdt, Jan
Format: Artikel
Sprache:eng
Schlagworte:
charge balance
Competitive materials
Conduction bands
Electrons
FeFET
FeFETs
ferroelectric
Ferroelectric materials
Ferroelectricity
HZO
IGZO
Indium gallium zinc oxide
Interlayers
Ionization
Iron
MFS
oxide semiconductor
Photonics
physics model
Sheet modelling
Stress measurement
Switches
Switching
Tin
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Zusammenfassung:Compared to Si, IGZO is a competitive choice for FeFET channel material, because of the interlayer-free structure, which can lead to a higher endurance. However, the ferroelectric switching mechanism of erasure remains unclear due to the lack of holes in IGZO. In this work, we present a quasi-static charge sheet model of Metal/Ferroelectric/IGZO stack, considering the charges supplied by IGZO Density of States and interface states. The modeling results suggest that shallow donors, by emitting electrons into the conduction band and thereby partially ionized, can become positively charged and thus support the erase operation. Cryogenic Negative Bias Illumination Stress measurement indicates the presence of shallow donors.
ISSN:0741-3106
1558-0563
DOI:10.1109/LED.2024.3411404