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Fabrication of p+/n Ultra Shallow Junctions (USJ) in silicon by excimer laser doping from spin-on glass sources.

机译：通过旋转玻璃源的准分子激光掺杂在硅中的P + / N超浅线（USJ）的制造。

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In this work was investigated a simple laser doping method employing doped oxide glass films as dopant source (up to 2.10~21 cm~(-3)) which are deposited onto silicon by the spin coating technique. Both short (20 ns) and long (200 ns) pulse duration excimer laser beams were used to deposit a large amount of energy in a short time onto the near-surface region. Under suitable conditions, the irradiation leads to surface melting and dopant incorporation by liquid phase diffusion from the surface. Boron distribution profiles in the two pulses duration regimes were studied as well as their electrical properties, and the junction formation of less than 20 nm in depth was demonstrated.

机译：在这项工作中，研究了一种简单的激光掺杂方法，采用掺杂氧化物玻璃膜作为掺杂剂源（高达2.10〜21cm〜（-3））通过旋涂技术沉积在硅上。短（20ns）和长（200ns）脉冲持续时间准分子激光束都用于在短时间内沉积大量的能量，进入近表面区域。在合适的条件下，照射导致表面熔化和掺杂剂通过从表面的液相扩散而引入。研究了两种脉冲持续时间制度中的硼分布曲线以及它们的电性能，并且对深度深度小于20nm的结块形成。

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《Materials Research Society Symposium》|2004年||共6页
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S. Coutanson; E. Fogarassy; J. Venturini;
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1. Mechanisms and application of the Excimer laser doping from spin-on glass sources for USJ fabrication [J] . Coutanson S, Fogarassy E, Venturini J Applied Surface Science . 2006,第13期

机译：用于USJ制造的自旋玻璃源准分子激光掺杂的机理和应用
2. Photocarrier Radiometry Characterization of Ultra-shallow Junctions (USJ) in Silicon with Excimer Laser Irradiation [J] . Wang Qian, Li Bincheng, Ren Shengdong, International Journal of Thermophysics . 2015,第5a6期

机译：准分子激光辐照中硅中的超浅结（USJ）的光电子能谱表征
3. Effect of Pulse Number on Dopant Activation in Silicon during Shallow p+ Junction Formation by Non-Melt Excimer Laser Annealing [J] . SitiRahmah Aid1a, Azura Hamzah1b, Sumiaty Ambran1c, MATEC Web of Conferences . 2015,第2015期

机译：非熔融准分子激光退火在浅p + / n结形成过程中脉冲数对硅中掺杂物活化的影响
4. Fabrication of p+/n Ultra Shallow Junctions (USJ) in silicon by excimer laser doping from spin-on glass sources. [C] . S. Coutanson, E. Fogarassy, J. Venturini Materials Research Society Symposium . 2004

机译：通过旋转玻璃源的准分子激光掺杂在硅中的P + / N超浅线（USJ）的制造。
5. Germanosilicide contacts to ultra-shallow p(+)n junctions of nanoscale CMOS integrated circuits by selective deposition of in-situ doped silicon-germanium alloys. [D] . Liu, Jing. 2003

机译：锗硅化物通过选择性沉积原位掺杂的硅锗合金与纳米级CMOS集成电路的超浅p（+）n结接触。
6. Fabrication of Superhydrophobic Silicone Rubber with Periodic Micro/Nano-Suction Cup Structure by ArF Excimer Laser-Induced Photodissociation [O] . Masayuki Okoshi 2019

机译：ArF受激准分子激光诱导的光解离制备具有周期性微/纳米吸盘结构的超疏水硅橡胶
7. Formation of Silicon Ultra Shallow Junction by nonmelt excimer laser treatment [O] . A. Florakis, A. Papadimitriou, N. Chatzipanagiotis, 2016

机译：非熔融准分子激光处理形成硅超浅结
8. Junction Formation in GaAs Shallow-Homojunction Solar Cells by the Use of Spin-on Diffusion Sources. [R] . Turner, G. W., Tsaur, B. Y., Fan, J. C. C., 1982

机译：利用自旋扩散源在Gaas浅 - 同质结太阳能电池中形成结。

Fabrication of p+/n Ultra Shallow Junctions (USJ) in silicon by excimer laser doping from spin-on glass sources.

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