Kevin Gable scite author profile

Kevin Gable

5Publications

20Citation Statements Received

9Citation Statements Given

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Affiliations

University of Florida, Motorola (United States)

Publications

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The effect of preamorphization energy on ultrashallow junction formation following ultrahigh-temperature annealing of ion-implanted silicon

Gable

Robertson

Jain

et al. 2005

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High-power arc lamp design has enabled ultrahigh-temperature ͑UHT͒ annealing as an alternative to conventional rapid thermal processing ͑RTP͒ for ultrashallow junction formation. The time duration of the UHT annealing technique is significantly reduced from those obtained through conventional RTP. This difference in time may offer the ability to maintain a highly activated ultrashallow junction without being subjected to transient enhanced diffusion ͑TED͒, which is typically observed during postimplant thermal processing. In this study, two 200-mm ͑100͒ n-type Czochralski-grown Si wafers were preamorphized with either a 48-or a 5-keV Ge + implant to 5 ϫ 10 14 cm 2 , and subsequently implanted with 3-keV BF 2 + molecular ions to 6 ϫ 10 14 cm 2 . The wafers were sectioned and annealed under various conditions in order to investigate the effects of the UHT annealing technique on the resulting junction characteristics. The main point of the paper is to show that the UHT annealing technique is capable of producing a highly activated p-type source/drain extension without being subjected to TED only when the preamorphization implant is sufficiently deep.

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Process Modeling for Advanced Devices

et al. 2004

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As device lots become more and more expensive, process modeling is increasingly important. Process simulation and modeling is increasingly sophisticated but the accuracy remains a problem. There is generally a time lag between the introduction of a particular process and its accurate modeling – the problem of “yesterday's technology modeled tomorrow”. For many problems, absolute accuracy isn't required. Relative trends provide excellent information about the process in question. For this reason, process simulation is still a useful technique for guiding process development.

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Temperature dependent creep expansion of Ti-6Al-4V low density core sandwich structures

2001

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Electrical and Structural Characterization of Boron Implanted Silicon Following Laser Thermal Processing

et al. 2002

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One alternative to conventional rapid thermal annealing (RTA) of implants for ultra-shallow junction formation is that of laser annealing. Laser thermal processing (LTP) incorporates an excimer pulsed laser capable of melting the near surface region of the silicon (Si) substrate. The melt depth is dependent upon the energy density supplied by the irradiation source and the melting temperature of the substrate surface. A process window associated with this technique is able to produce similar junction depths over a range of energy densities due to the melting temperature depression established with pre-amorphization of the substrate surface prior to dopant incorporation. The process window of germanium (Ge) preamorphized, boron (B) doped Si was investigated. 200 mm (100) n-type Si wafers were preamorphized via 18 keV Ge+ implantation to 1x1015/cm2 and subsequently implanted with 1 keV B+ to doses of 1x1015/cm2, 3x1015/cm2, 6x1015/cm2, and 9x1015/cm2. The wafers were laser annealed from 0.50 J/cm2 to 0.88 J/cm2 using a 308 nm XeCl excimer irradiation source. Transmission electron microscopy (TEM) was used to determine the process window for each implant condition, and correlations between process window translation and impurity concentration were made. Four-point probe quantified dopant activation and subsequent deactivation upon post-LTP furnace annealing.

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Diffusion of Implanted Nitrogen in Silicon at High Doses

et al. 2001

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Nitrogen implantation is used to retard gate oxide growth thereby making it particularly usefulfor dual- VT and System On A chip technologies. This paper discusses the diffusion behavior and the concomitant defect evolution at high doses of implanted nitrogen in silicon. This paper shows that as the nitrogen implant dose is increased, the extent of nitrogen diffusion reduces. This paper also reports based onTEM studies, that upon annealing at 750°C, 5 × 10014 N2+/cm2, 40 keV implant produces Type I extended defects. However, 2 × 1015 N2+/cm2, 40 keV implant, produces a continuous amorphous layer to a depth ofabout 800 to 900 Å from the surface. In addition, upon annealing at 750°C, the 2 × 1015 N2+/cm2, 40 keV implant produces Type V or solid solubility defects in addition to End of Range or Type II defects.

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Kevin Gable

The effect of preamorphization energy on ultrashallow junction formation following ultrahigh-temperature annealing of ion-implanted silicon

Process Modeling for Advanced Devices

Temperature dependent creep expansion of Ti-6Al-4V low density core sandwich structures

Electrical and Structural Characterization of Boron Implanted Silicon Following Laser Thermal Processing

Diffusion of Implanted Nitrogen in Silicon at High Doses

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