Gate dielectric

A gate dielectric is a dielectric used between the gate and substrate of a field-effect transistor (such as a MOSFET). In state-of-the-art processes, the gate dielectric is subject to many constraints, including:

  • Electrically clean interface to the substrate (low density of quantum states for electrons)
  • High capacitance, to increase the FET transconductance
  • High thickness, to avoid dielectric breakdown and leakage by quantum tunneling.

The capacitance and thickness constraints are almost directly opposed to each other. For silicon-substrate FETs, the gate dielectric is almost always silicon dioxide (called "gate oxide"), since thermal oxide has a very clean interface. However, the semiconductor industry is interested in finding alternative materials with higher dielectric constants, which would allow higher capacitance with the same thickness.

History

The earliest gate dielectric used in a field-effect transistor was silicon dioxide (SiO2). The silicon and silicon dioxide surface passivation process was developed by Egyptian engineer Mohamed M. Atalla at Bell Labs during the late 1950s, and then used in the first MOSFETs (metal-oxide-semiconductor field-effect transistors). Silicon dioxide remains the standard gate dielectric in MOSFET technology.[1]

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See also

References

  1. Kooi†, E.; Schmitz, A. (2005). "Brief Notes on the History of Gate Dielectrics in MOS Devices". High Dielectric Constant Materials: VLSI MOSFET Applications. Springer Series in Advanced Microelectronics. Springer Berlin Heidelberg. 16: 33–44. doi:10.1007/3-540-26462-0_2. ISBN 978-3-540-21081-8.


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