Growth and annealing behaviour of α-Sn on InSb(001) measured by LEED and He atom scattering

The growth and annealing behaviour of films of α-Sn deposited on In-rich InSb(001) have been studied. Monolayer films deposited at ∼ 40°C were found to exhibit disorder as evidenced by the random scattering of He atoms. LEED showed a reconstruction to a (1 × 1) surface phase. Annealing the films slo...

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Veröffentlicht in:	Surface science 1992-02, Vol.262 (1), p.169-179
Hauptverfasser:	Mason, B.F., Williams, B.R.
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Chemistry Chemistry, Physical Condensed matter: structure, mechanical and thermal properties Exact sciences and technology Metals. Metallurgy Physical Sciences Physics Physics, Condensed Matter Science & Technology Solid surfaces and solid-solid interfaces Surface and interface dynamics and vibrations Surfaces and interfaces thin films and whiskers (structure and nonelectronic properties) Thin film structure and morphology
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description	The growth and annealing behaviour of films of α-Sn deposited on In-rich InSb(001) have been studied. Monolayer films deposited at ∼ 40°C were found to exhibit disorder as evidenced by the random scattering of He atoms. LEED showed a reconstruction to a (1 × 1) surface phase. Annealing the films slowly between ∼ 100 and 220°C increased the (00) peak and produced a well defined He diffraction pattern and also changed the LEED picture. Subsequent Sn layers (up to a total of 7 layers) behaved in a similar manner with the α-Sn remaining stable to the high temperatures. During Sn deposition the shape of the (00) signal as a function of coverage was measured and was different for the first and subsequent layers. Recovery effects were measured as a function of Sn coverage and temperature. Deposition of Sn on Sn at 159°C produced the same result as low-temperature deposition and annealing to 220°C. Finally, deposition of Sn on InSb at higher temperatures was measured. It is concluded that, for at least thin films, the α-Sn films should possess less defects at the interface that should lead to better electrical properties. Further, the stability of the α-Sn to higher temperatures opens up the possibility of the deposition of other semiconductor layers on α-Sn to produce a sandwich device using a low-band-gap material.
doi_str_mv	10.1016/0039-6028(92)90469-M
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Monolayer films deposited at ∼ 40°C were found to exhibit disorder as evidenced by the random scattering of He atoms. LEED showed a reconstruction to a (1 × 1) surface phase. Annealing the films slowly between ∼ 100 and 220°C increased the (00) peak and produced a well defined He diffraction pattern and also changed the LEED picture. Subsequent Sn layers (up to a total of 7 layers) behaved in a similar manner with the α-Sn remaining stable to the high temperatures. During Sn deposition the shape of the (00) signal as a function of coverage was measured and was different for the first and subsequent layers. Recovery effects were measured as a function of Sn coverage and temperature. Deposition of Sn on Sn at 159°C produced the same result as low-temperature deposition and annealing to 220°C. Finally, deposition of Sn on InSb at higher temperatures was measured. It is concluded that, for at least thin films, the α-Sn films should possess less defects at the interface that should lead to better electrical properties. Further, the stability of the α-Sn to higher temperatures opens up the possibility of the deposition of other semiconductor layers on α-Sn to produce a sandwich device using a low-band-gap material.</description><identifier>ISSN: 0039-6028</identifier><identifier>EISSN: 1879-2758</identifier><identifier>DOI: 10.1016/0039-6028(92)90469-M</identifier><identifier>CODEN: SUSCAS</identifier><language>eng</language><publisher>AMSTERDAM: Elsevier B.V</publisher><subject>Applied sciences ; Chemistry ; Chemistry, Physical ; Condensed matter: structure, mechanical and thermal properties ; Exact sciences and technology ; Metals. 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Monolayer films deposited at ∼ 40°C were found to exhibit disorder as evidenced by the random scattering of He atoms. LEED showed a reconstruction to a (1 × 1) surface phase. Annealing the films slowly between ∼ 100 and 220°C increased the (00) peak and produced a well defined He diffraction pattern and also changed the LEED picture. Subsequent Sn layers (up to a total of 7 layers) behaved in a similar manner with the α-Sn remaining stable to the high temperatures. During Sn deposition the shape of the (00) signal as a function of coverage was measured and was different for the first and subsequent layers. Recovery effects were measured as a function of Sn coverage and temperature. Deposition of Sn on Sn at 159°C produced the same result as low-temperature deposition and annealing to 220°C. Finally, deposition of Sn on InSb at higher temperatures was measured. It is concluded that, for at least thin films, the α-Sn films should possess less defects at the interface that should lead to better electrical properties. Further, the stability of the α-Sn to higher temperatures opens up the possibility of the deposition of other semiconductor layers on α-Sn to produce a sandwich device using a low-band-gap material.</description><subject>Applied sciences</subject><subject>Chemistry</subject><subject>Chemistry, Physical</subject><subject>Condensed matter: structure, mechanical and thermal properties</subject><subject>Exact sciences and technology</subject><subject>Metals. 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Metallurgy</topic><topic>Physical Sciences</topic><topic>Physics</topic><topic>Physics, Condensed Matter</topic><topic>Science & Technology</topic><topic>Solid surfaces and solid-solid interfaces</topic><topic>Surface and interface dynamics and vibrations</topic><topic>Surfaces and interfaces; thin films and whiskers (structure and nonelectronic properties)</topic><topic>Thin film structure and morphology</topic><toplevel>peer_reviewed</toplevel><toplevel>online_resources</toplevel><creatorcontrib>Mason, B.F.</creatorcontrib><creatorcontrib>Williams, B.R.</creatorcontrib><collection>Web of Science Core Collection</collection><collection>Science Citation Index Expanded</collection><collection>Web of Science - Science Citation Index Expanded - 1992</collection><collection>Pascal-Francis</collection><collection>CrossRef</collection><jtitle>Surface science</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Mason, B.F.</au><au>Williams, B.R.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Growth and annealing behaviour of α-Sn on InSb(001) measured by LEED and He atom scattering</atitle><jtitle>Surface science</jtitle><stitle>SURF SCI</stitle><date>1992-02-01</date><risdate>1992</risdate><volume>262</volume><issue>1</issue><spage>169</spage><epage>179</epage><pages>169-179</pages><issn>0039-6028</issn><eissn>1879-2758</eissn><coden>SUSCAS</coden><abstract>The growth and annealing behaviour of films of α-Sn deposited on In-rich InSb(001) have been studied. Monolayer films deposited at ∼ 40°C were found to exhibit disorder as evidenced by the random scattering of He atoms. LEED showed a reconstruction to a (1 × 1) surface phase. Annealing the films slowly between ∼ 100 and 220°C increased the (00) peak and produced a well defined He diffraction pattern and also changed the LEED picture. Subsequent Sn layers (up to a total of 7 layers) behaved in a similar manner with the α-Sn remaining stable to the high temperatures. During Sn deposition the shape of the (00) signal as a function of coverage was measured and was different for the first and subsequent layers. Recovery effects were measured as a function of Sn coverage and temperature. Deposition of Sn on Sn at 159°C produced the same result as low-temperature deposition and annealing to 220°C. Finally, deposition of Sn on InSb at higher temperatures was measured. It is concluded that, for at least thin films, the α-Sn films should possess less defects at the interface that should lead to better electrical properties. Further, the stability of the α-Sn to higher temperatures opens up the possibility of the deposition of other semiconductor layers on α-Sn to produce a sandwich device using a low-band-gap material.</abstract><cop>AMSTERDAM</cop><pub>Elsevier B.V</pub><doi>10.1016/0039-6028(92)90469-M</doi><tpages>11</tpages></addata></record>
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subjects	Applied sciences Chemistry Chemistry, Physical Condensed matter: structure, mechanical and thermal properties Exact sciences and technology Metals. Metallurgy Physical Sciences Physics Physics, Condensed Matter Science & Technology Solid surfaces and solid-solid interfaces Surface and interface dynamics and vibrations Surfaces and interfaces thin films and whiskers (structure and nonelectronic properties) Thin film structure and morphology
title	Growth and annealing behaviour of α-Sn on InSb(001) measured by LEED and He atom scattering
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