The Impact of Helium Co-Implantation on Hydrogen Induced Donor Profiles in Float Zone Silicon

Laven, Johannes G.; Job, R.; Schulze, Hans‐Joachim; Niedernostheide, F.‐J.; Häublein, V.; Schulze, Holger; Schustereder, Werner; Ryssel, H.; Frey, L.

doi:10.1149/1.3485682

Cited by 4 publications

(8 citation statements)

References 16 publications

(27 reference statements)

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“…The concentration of the proton-induced HDs using fluences between 3×10 13 cm -2 and about 1×10 15 cm -2 is a non-trivial function of the proton fluence and the annealing temperature. The HD concentration depends linearly on the proton fluence for successive anneals at temperatures around 350 °C, whereas after annealing at temperatures around 470 °C a square-root dependence of the HD concentration on the fluence is observed (15,16). This behavior may be explained qualitatively by the appearance of two different types of HDs in the proton-implanted samples.…”

Section: Introductionmentioning

confidence: 93%

“…The depth distribution of the HDs is, in the initial stages of the activation, limited by the spatial overlapping of the radiation damage regions and the hydrogen distributions in the irradiated silicon (17). The total amount of HDs that may be activated in proton-implanted silicon is proven to be limited by the radiation-induced damage (16). I.e., the average amount of HD core complexes induced per implanted proton, with energies in the range of up to several MeV, is far less than one.…”

Section: Introductionmentioning

confidence: 99%

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(Invited) The Thermal Budget of Hydrogen-Related Donor Profiles: Diffusion-Limited Activation and Thermal Dissociation

et al. 2013

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The impact of the thermal budget on hydrogen-related donor profiles in high purity silicon implanted with protons in the energy range of MeV is investigated. The appearance of the donor profiles is limited to the annealing temperature regime between about 350°C and 500°C. The activation of the doping profiles is limited by the diffusion of the implanted hydrogen from the end-of-range region throughout the radiation-induced damage. This formation process of the profiles is adequately described by a diffusion model with an effective activation energy of 1.2 eV. The hydrogenrelated donors are radiation-induced defect complexes decorated by the implanted hydrogen. The thermal stability of these donors is limited by their dissociation. The deactivation of the doping is modeled by two hydrogen-related donor species with effective dissociation energies of 2.5 eV and 3 eV. The formation and dissociation mechanisms described in the present study define the upper and lower limits of the post-implantation thermal budget, respectively, for the sensible use of proton implantation doping in crystalline Silicon.

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Section: Introductionmentioning

confidence: 93%

Section: Introductionmentioning

confidence: 99%

(Invited) The Thermal Budget of Hydrogen-Related Donor Profiles: Diffusion-Limited Activation and Thermal Dissociation

et al. 2013

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“…The HD concentration depends linearly on the proton fluence for successive anneals at temperatures around 350 • C, whereas after annealing at temperatures around 470 • C a square-root dependence of the HD concentration on the fluence is observed. 19,20 This behavior may be explained qualitatively by the appearance of two different types of HDs in the proton-implanted samples. These two species each exhibit a different proportionality to the implanted proton fluence.…”

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confidence: 91%

“…While the z E-mail: johannes.laven@infineon.com former species disappears at annealing temperatures of about 400 • C, the later species remains stable up to annealing temperatures around 470 • C. 21 The depth distribution of the HDs is, in the initial stages of the activation, limited by the spatial overlapping of the radiation damage regions and the hydrogen distributions in the irradiated silicon. 20,21 The total amount of HDs that may be activated in proton-implanted silicon is proven to be limited by the radiation-induced damage 20 -i.e., the average amount of HD core complexes induced per implanted proton, with energies in the range of up to several MeV, is far less than one. The surplus hydrogen potentially has an even detrimental effect on the amount of induced HDs.…”

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confidence: 99%

Activation and Dissociation of Proton-Induced Donor Profiles in Silicon

Laven

Job

Schulze

et al. 2013

ECS J. Solid State Sci. Technol.

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The impact of the thermal budget on the introduction and dissociation of hydrogen-related donor profiles in high purity silicon implanted with protons in the energy range of MeV is investigated. The hydrogen-related donors are radiation-induced defect complexes decorated by the implanted hydrogen. The appearance of the donor profiles is limited to the annealing temperature regime between about 350 °C and 500 °C. The activation of the doping profiles is limited by the diffusion of the implanted hydrogen from the end-of-range region throughout the radiation-induced damage profile. This formation process is adequately described by a diffusion model with an effective activation energy of 1.2 eV. The thermal stability of the hydrogen-related donor profiles is limited by the dissociation of the donors. The deactivation of the doping is modeled by two hydrogen-related donor species with effective dissociation energies of 2.6 eV and 3 eV. The formation and dissociation mechanisms described in the present study define the upper and lower limits of the post-implantation thermal budget, respectively, for a sensible use of proton implantation doping in crystalline silicon.

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“…Proton-induced doping profiles offer a feasible method for tailoring the carrier distribution in depths beyond 100 µm at proton energies of several MeV [1,2]. The donors used by this method are a radiation defect complex decorated by hydrogen.…”

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confidence: 99%

Thermal Budget of Hydrogen-Related Donor Profiles - Diffusion Limited Activation and Thermal Dissociation

Laven,

Job,

Schulze

et al. 2012

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The Impact of Helium Co-Implantation on Hydrogen Induced Donor Profiles in Float Zone Silicon

Cited by 4 publications

References 16 publications

(Invited) The Thermal Budget of Hydrogen-Related Donor Profiles: Diffusion-Limited Activation and Thermal Dissociation

(Invited) The Thermal Budget of Hydrogen-Related Donor Profiles: Diffusion-Limited Activation and Thermal Dissociation

Activation and Dissociation of Proton-Induced Donor Profiles in Silicon

Thermal Budget of Hydrogen-Related Donor Profiles - Diffusion Limited Activation and Thermal Dissociation

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