High Quality Vertical Silicon Channel by Laser-Induced Epitaxial Growth for Nanoscale Memory Integration

High Quality Vertical Silicon Channel by Laser-Induced Epitaxial Growth for Nanoscale Memory Integration

As a versatile processing method for nanoscale memory integration, laser-induced epitaxial growth is proposed for the fabrication of vertical Si channel (VSC) transistor. The fabricated VSC transistor with 80 nm gate length and 130 nm pillar diameter exhibited field effect mobility of 300 cm2/Vs, wh...

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Veröffentlicht in:Journal of semiconductor technology and science 2014, 14(2), 56, pp.169-174
Hauptverfasser: Son, Yong-Hoon, Baik, Seung Jae, Kang, Myounggon, Hwang, Kihyun, Yoon, Euijoon
Format: Artikel
Sprache:eng
Schlagworte:
전기공학
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Zusammenfassung:As a versatile processing method for nanoscale memory integration, laser-induced epitaxial growth is proposed for the fabrication of vertical Si channel (VSC) transistor. The fabricated VSC transistor with 80 nm gate length and 130 nm pillar diameter exhibited field effect mobility of 300 cm2/Vs, which guarantees “device quality”. In addition, we have shown that this VSC transistor provides memory operations with a memory window of 700 mV, and moreover, the memory window further increases by employing charge trap dielectrics in our VSC transistor. Our proposed processing method and device structure would provide a promising route for the further scaling of state-of-the-art memory technology. KCI Citation Count: 2
ISSN:1598-1657
2233-4866
DOI:10.5573/jsts.2014.14.2.169