2017
DOI: 10.7567/jjap.56.06ha01
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Defect generation in electronic devices under plasma exposure: Plasma-induced damage

Abstract: The increasing demand for higher performance of ULSI circuits requires aggressive shrinkage of device feature sizes in accordance with Moore's law. Plasma processing plays an important role in achieving fine patterns with anisotropic features in metal-oxide-semiconductor field-effect transistors (MOSFETs). This article comprehensively addresses the negative aspect of plasma processingplasma-induced damage (PID). PID naturally not only modifies the surface morphology of materials but also degrades the performan… Show more

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Cited by 53 publications
(47 citation statements)
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“…Figure shows the detailed structures of the damaged region under various ion doses D ion1 , D ion2 , and D ion3 , accompanied by the result by a molecular dynamics (MD) simulation on the top. Some of the MD simulations results regarding the damaged layer formation have been presented elsewhere . The MD simulation result shows the presence of Ar atoms deep in the Si substrate and the interfacial region with knocked‐on Si, O, and Ar atoms.…”
Section: Ppd Model For Progressive Damaged Layer Thicknessmentioning
confidence: 96%
See 3 more Smart Citations
“…Figure shows the detailed structures of the damaged region under various ion doses D ion1 , D ion2 , and D ion3 , accompanied by the result by a molecular dynamics (MD) simulation on the top. Some of the MD simulations results regarding the damaged layer formation have been presented elsewhere . The MD simulation result shows the presence of Ar atoms deep in the Si substrate and the interfacial region with knocked‐on Si, O, and Ar atoms.…”
Section: Ppd Model For Progressive Damaged Layer Thicknessmentioning
confidence: 96%
“…Some of the MD simulations results regarding the damaged layer formation have been presented elsewhere. [2,3] The MD simulation result shows the presence of Ar atoms deep in the Si substrate and the interfacial region with knocked-on Si, O, and Ar atoms. By a series of collisions, the defects are created and the mechanism is accumulated in accordance with D ion as illustrated in Figure 2b.…”
Section: Ppd Range Theorymentioning
confidence: 99%
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“…Such plasma etching induces a lot of surface damage that is detrimental to the device performances; see the progress review by Eriguchi. 3 For example, the damage induced during the fabrication process of a recessed gate for an AlGaN/GaN field effect transistor could drastically reduce the gate breakdown voltage. 4 Similarly, when dealing with optoelectronic devices, point defects induced by the etching can act as Shockley-Read-Hall nonradiative centers for the carriers 5 and/or as surface charged traps, which leads to Fermi-level pinning.…”
Section: Introductionmentioning
confidence: 99%