Title :
Twin SONOS memory with 30-nm storage nodes under a merged gate fabricated with inverted sidewall and damascene process
Author :
Lee, Yong Kyu ; Song, Ki Whan ; Hyun, Jae Woong ; Lee, Jong Duk ; Park, Byung-Gook ; Kang, Sung Taeg ; Choe, Jeong Dong ; Han, Sang Yeon ; Han, Jeong Nam ; Lee, Sung Woo ; Kwon, O. Ik ; Chung, Chilhee ; Park, Donggun ; Kim, Kinam
Author_Institution :
Sch. of Electr. Eng., Seoul Nat. Univ., South Korea
fDate :
5/1/2004 12:00:00 AM
Abstract :
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.
Keywords :
flash memories; integrated circuit design; memory architecture; semiconductor storage; semiconductor-insulator boundaries; 30 nm; O-N-O-S; SONOS flash memory; SSM; Si-O-N-O-S; charge profile; damascene process; diffusion barrier; inverted sidewall patterning method; memory cell; silicon-oxide-nitride-oxide-silicon; storage nodes; trapped charge distribution; twin SONOS memory; Electronics industry; Flash memory; Hot carriers; Large scale integration; Lithography; Nonvolatile memory; Research and development; SONOS devices; Scanning electron microscopy; Wet etching;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2004.826535
