New Striker FE enhanced atomic layer deposition platform addresses semiconductor manufacturing challenges for 3D NAND, DRAM, and Logic chipmakers
Lam Research announced the advanced Striker FE platform, a new processing solution for manufacturing high-aspect-ratio chip architectures. Striker FE utilizes an innovative, first of its kind ICEFill™ technology for filling extreme structures in 3D NAND, DRAM, and logic devices at emerging nodes. This system delivers the continued cost and technology scaling that is required to meet the semiconductor industry roadmap.
Traditional methods of gapfill for semiconductor manufacturing include legacy chemical vapor deposition, diffusion/furnace, and spin-on processes. These techniques are no longer viable for 3D NAND requirements, as they are limited by the tradeoffs between quality, shrinkage, and gapfill voids. In contrast, Lam’s Striker ICEFill harnesses a proprietary surface modification technique to achieve highly preferential bottom-up and void-free gapfill while retaining the film quality inherent to atomic layer deposition (ALD). The ICEFill technology removes the existing limitations for filling high-aspect-ratio features which are especially prevalent in 3D NAND devices, as well as prevents collapse issues in DRAM and logic devices.
“Our goal is to provide customers with the most enabling ALD technology,” said Sesha Varadarajan, senior vice president and general manager of the Deposition product team at Lam Research. “This technology combines the ability to produce high quality oxide films with superior gapfill performance, in a single processing system with the productivity advantages offered by our industry quad station module architecture.”
The Striker FE platform with ICEFill technology is part of the Striker ALD product family. For more information about the Striker product family visit the product page.
Related Reports and Monitors
Status of the Memory Industry 2020 – Focus on Kioxia
Market & Technology
UV LEDs – Market and Technology Trends 2020
Market & Technology