Erdal Suvar scite author profile

Erdal Suvar

5Publications

30Citation Statements Received

22Citation Statements Given

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Affiliations

KTH Royal Institute of Technology, Tekniska Högskolans Studentkår

Publications

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Formation of Shallow Junctions by HCl-Based Si Etch Followed by Selective Epitaxy of B-Doped Si[sub 1−x]Ge[sub x] in RPCVD

Isheden

Radamson

Suvar

et al. 2004

J. Electrochem. Soc.

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Formation of shallow source/drain junctions by using HCl-based Si etch followed by selective deposition of in situ heavily B-doped SiGe in a reduced pressure chemical vapor deposition reactor is presented. The etching parameters were optimized to obtain a smooth surface prior to deposition of the SiGe layers. In the epitaxy process, SiGe layers with a resistivity of 5 ϫ 10 Ϫ4 ⍀ cm were obtained by tuning the partial pressure of the B and Ge precursors. A problem with selectivity in the epitaxy step was encountered when combing the etch and growth processes, but a practical solution is presented. Integration issues such as loading effect, pile-up, and defect generation have also been investigated.

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Methods to reduce the loading effect in selective and non-selective epitaxial growth of sigec layers

Hållstedt

Suvar

Menon

et al. 2004

Materials Science and Engineering: B

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Improvement in epitaxial quality of selectively grown Si1−xGex layers with low pattern sensitivity for CMOS applications

Radamson

Hållstedt

Suvar

et al. 2005

Materials Science in Semiconductor Processing

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Phosphorus profile control in low-temperature silicon epitaxy by reduced pressure chemical vapor deposition

Suvar¹,

Radamson²,

Grahn³

2002

Materials Science and Engineering: B

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A Base-Collector Architecture for SiGe HBTs using Low-Temperature CVD Epitaxy Combined with Chemical-Mechanical Polishing

et al. 2002

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Erdal Suvar

Formation of Shallow Junctions by HCl-Based Si Etch Followed by Selective Epitaxy of B-Doped Si[sub 1−x]Ge[sub x] in RPCVD

Methods to reduce the loading effect in selective and non-selective epitaxial growth of sigec layers

Improvement in epitaxial quality of selectively grown Si1−xGex layers with low pattern sensitivity for CMOS applications

Phosphorus profile control in low-temperature silicon epitaxy by reduced pressure chemical vapor deposition

A Base-Collector Architecture for SiGe HBTs using Low-Temperature CVD Epitaxy Combined with Chemical-Mechanical Polishing

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