Controlling dopant profiles in hyperdoped silicon by modifying dopant evaporation rates during pulsed laser melting

Recht Daniel; Sullivan Joseph T.; Reedy Robert; Buonassisi Tonio; Aziz Michael J.

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Controlling dopant profiles in hyperdoped silicon by modifying dopant evaporation rates during pulsed laser melting

机译：通过修改脉冲激光熔化过程中的掺杂剂蒸发速率来控制超掺杂硅中的掺杂剂分布

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We describe a method to control the sub-surface dopant profile in “hyperdoped” silicon fabricated by ion implantation and pulsed laser melting. Dipping silicon ion implanted with sulfur into hydrofluoric acid prior to nanosecond pulsed laser melting leads to a tenfold increase in the rate of sulfur evaporation from the surface of the melt. This results in an 80% reduction of the near-surface dopant concentration, effectively embedding the hyperdoped region in a layer up to 180 nm beneath the surface. This method should facilitate the development of blocked impurity band devices.

机译：我们描述了一种控制通过离子注入和脉冲激光熔化制造的“超掺杂”硅中的次表面掺杂剂分布的方法。在纳秒脉冲激光熔化之前，将注入硫的硅离子浸入氢氟酸中会导致硫从熔体表面蒸发的速率增加十倍。这导致近表面掺杂剂浓度降低80％，从而有效地将超掺杂区嵌入表面下方长达180 nm的层中。此方法应有助于开发受阻杂质带器件。

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《Applied Physics Letters》 |2012年第11期|p.1-3|共3页
作者
Recht Daniel; Sullivan Joseph T.; Reedy Robert; Buonassisi Tonio; Aziz Michael J.;
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Harvard School of Engineering and Applied Sciences, Cambridge, Massachusetts 02138, USA;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);
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正文语种 eng
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1. Controlling dopant profiles in hyperdoped silicon by modifying dopant evaporation rates during pulsed laser melting [J] . Daniel Recht, Joseph T. Sullivan, Robert Reedy, Applied Physics Letters . 2012,第11期

机译：通过修改脉冲激光熔化过程中的掺杂剂蒸发速率来控制超掺杂硅中的掺杂剂分布
2. Femtosecond-laser hyperdoping silicon in an SF_6 atmosphere: Dopant incorporation mechanism [J] . Meng-Ju Sher, Niall M. Mangan, Matthew J. Smith, Journal of Applied Physics . 2015,第12期

机译：SF_6气氛中的飞秒激光超掺杂硅：掺杂剂掺入机制
3. Hyperdoping of silicon with deep-level impurities by pulsed YAG laser melting [J] . Ikurou Umezu, Muneyuki Naito, Daisuke Kawabe, Applied Physics . 2014,第1期

机译：脉冲YAG激光熔融技术对深层杂质硅进行超掺杂
4. Improvement of the emitter properties by controlling the interface Between dopant and substrate in laser doping for textured silicon [C] . Nishimura H., Tanaka S., Morisaki S., IEEE Photovoltaic Specialists Conference . 2013

机译：通过控制织构硅的激光掺杂中掺杂物和衬底之间的界面来改善发射极性能
5. Pulsed laser annealing of silicon structures for crystallization and dopant activation. [D] . Xu, Li. 2006

机译：硅结构的脉冲激光退火，用于结晶和掺杂剂激活。
6. Contactless nondestructive determination of dopant profiles of localized boron-diffused regions in silicon wafers at room temperature [O] . Hieu T. Nguyen, Zhuofeng Li, Young-Joon Han, -1

机译：室温下非接触式无损确定硅晶圆中局部硼扩散区的掺杂剂分布
7. Evidence for vacancy trapping in Au-hyperdoped Si following pulsed laser melting [O] . W. Yang, N. Ferdous, P. J. Simpson, 2019

机译：脉冲激光熔化之后Au-Hyperdoped Si空位诱捕的证据

Controlling dopant profiles in hyperdoped silicon by modifying dopant evaporation rates during pulsed laser melting

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