Atomic layer deposited solid sources for doping of high aspect ratio semiconductor structures

机译：用于高纵横比半导体结构掺杂的原子层沉积固体源

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Plasma-assisted atomic layer deposition (PALD) was carried out for growing thin oxide films containing dopants for silicon, germanium, and SiGe onto flat and high-aspect ratio substrates. The applicability of these films as dopant sources for shallow doping using different rapid thermal annealing (RTP) methods, such as conventional RTP and flash lamp anneal (FLA), was investigated. Remote CCP and ICP sources were applied for generating oxygen radicals in the PALD processes. Oxides containing boron, phosphorus or antimony were grown and investigated for the doping experiments. Conformal growth of such films could be obtained on silicon trench structures up to ~15:1 aspect ratio with pitch below 50 nm. Shallow boron and phosphorus doping of silicon could be obtained using the respective oxide films as dopant sources. Controlled doping of 3-D nanostructured devices by pre-deposition with ALD source layers should be feasible by this method.

机译：进行等离子体辅助原子层沉积（PALD），以将包含用于硅，锗和SiGe的掺杂剂的薄氧化膜生长到平坦高纵横比的衬底上。研究了这些膜作为使用不同快速热退火（RTP）方法（例如常规RTP和闪光灯退火（FLA））的浅掺杂掺杂源的适用性。在PALD过程中，远程CCP和ICP源用于产生氧自由基。生长含硼，磷或锑的氧化物，并进行掺杂实验。这样的膜的共形生长可以在硅沟槽结构上以高达约15：1的纵横比和小于50 nm的间距获得。使用各个氧化物膜作为掺杂剂源，可以获得硅的浅硼和磷掺杂。通过这种方法，通过用ALD源层进行预沉积来控制3D纳米结构器件的掺杂应该是可行的。

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《International Workshop on Junction Technology》|2018年|1-4|共4页
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Bodo Kalkofen; Mindaugas Silinskas; Marco Lisker; Y. S. Kim; Edmund P. Burte;
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Films; Phosphorus; Silicon; Doping; Annealing; Antimony; Boron;

机译：薄膜;磷;硅;掺杂;退火;锑;硼;

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Atomic layer deposited solid sources for doping of high aspect ratio semiconductor structures

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