Sung Taeg Kang scite author profile

By manipulating the charge profile through the inverted sidewall patterning on the channel, stable 2-bit operation in silicon-oxide-nitride-oxide-silicon (SONOS) Flash memory with sub-90-nm gate length can be achieved. The fabricated memory cell has about 30-nm twin Oxide-Nitride-Oxide-Silicon physically separated by the inverted sidewall patterning method under the same control gate based on damascene gate process. Comparing with a conventional single SONOS memory (SSM), this novel twin SONOS memory cell can maintain the better control of trapped charge distribution due to the strong diffusion barrier of charges. As a result, better endurance, retention, and erase speed than SSM can be obtained in the short (sub-100-nm) gate length devices.

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Scalable 2-bit silicon–oxide–nitride–oxide–silicon (SONOS) memory with physically separated local nitrides under a merged gate

Lee

Sung

Sim

et al. 2004

Solid-State Electronics

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Inverted sidewall spacer and inner offset oxide process for excellent 2-bit silicon-oxide-nitride-oxide-silicon memory under 100nm gate length

Lee

Park

et al. 2004

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Highly Reliable Flash Cell for Low Power Application

Park

Choi

Kang

et al. 2005

Jpn. J. Appl. Phys.

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The electrical properties of a split-gate-type flash cell are investigated and optimized by junction engineering to obtain a high reliability. Phosphorus implantation is conducted to form a cell source junction, and the following three different anneal conditions change voltage coupling ratio between the source and the floating gate. As the ratio increases, it is observed that program characteristic is improved and endurance property is degraded, which matches well with simulation result. Therefore, cells in the pure N2 group are considered to be optimized cells. Optimized cells guarantee 105 cycle endurance, and show excellent program disturbance and bake retention properties.

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Sung Taeg Kang

Highly Optimized Nanocrystal-Based Split Gate Flash for High Performance and Low Power Microcontroller Applications

Twin SONOS Memory With 30-nm Storage Nodes Under a Merged Gate Fabricated With Inverted Sidewall and Damascene Process

Scalable 2-bit silicon–oxide–nitride–oxide–silicon (SONOS) memory with physically separated local nitrides under a merged gate

Inverted sidewall spacer and inner offset oxide process for excellent 2-bit silicon-oxide-nitride-oxide-silicon memory under 100nm gate length

Highly Reliable Flash Cell for Low Power Application

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