Electrical activity and structural evolution correlations in laser and thermally annealed As-implanted Si specimens

Parisini, A.; Bourret, A.; Armigliato, A.; Servidori, M.; Solmi, S.; Fabbri, Rita; Regnard, J. R.; Allain, J. L.

doi:10.1063/1.345527

Cited by 66 publications

(29 citation statements)

References 26 publications

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“…Figure 10 shows a plot of the compression versus active electron concentration. Data from Parisini et al 31 and from Cargill et al 2 for ͑220͒ and ͑100͒ surfaces is also included in this figure. Our values for compression are larger than Parisini's.…”

Section: Layer Compressionmentioning

confidence: 96%

Lattice compression of Si crystals and crystallographic position of As impurities measured with x-ray standing wave spectroscopy

Herrera-Gómez

Rousseau

Woicik

et al. 1999

Journal of Applied Physics

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In an earlier letter [Appl. Phys. Lett. 68, 3090 (1996)] we reported results about heavily arsenic doped silicon crystals, where we unambiguously showed, based on x-ray standing wave spectroscopy (XSW) and other techniques, that electrically deactivated As remains essentially substitutional. In this article we present the analysis methodology that led us to said conclusion, and show how from further analysis it is possible to extract the compression or expansion of thin epitaxial layers. We report the evolution of the compression of highly As doped Si epitaxial layers as deactivation takes place. The XSW measurements required a very small thickness of the doped layer and a perfect registry between the substrate and the surface layer. We found larger values for compression than previously reported, which may be explained by the absence of structural defects on our samples that relax the interface stress. Our results show a saturation on the compression as the electron concentration increases. We also report an estimation of the small displacement from perfect substitutional positions suffered by deactivated As.

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Section: Layer Compressionmentioning

confidence: 96%

Lattice compression of Si crystals and crystallographic position of As impurities measured with x-ray standing wave spectroscopy

Herrera-Gómez

Rousseau

Woicik

et al. 1999

Journal of Applied Physics

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“…41,42 In contrast, and as expected, no such increase in n s has been observed upon annealing silicon hyperdoped with shallow dopant impurities (B, P, As, Sb). 4,15,16,20,21 The ionization energies of isolated impurities for these shallow dopants are so small that they are essentially all ionized at room temperature, so producing clusters with smaller ionization energies would not result in an increase in n s . Thus, the deep-level defects studied here provide a unique opportunity for insight to the formation of impurity complexes in supersaturated material.…”

Section: B Evolution Of the Sulfur Chemical Statementioning

confidence: 99%

“…As such, its enhanced properties-increased conductivity in the case of shallow dopants and sub-band gap optical absorption in the case of deep-level dopants-deactivate upon subsequent thermal treatment. 4,10,[14][15][16][17][18][19][20][21][22][23] There has been much interest in studying the nature of this deactivation. Studies on silicon hyperdoped with shallow dopants have correlated dopant deactivation (i.e., reductions in conductivity) with the formation of inactive dopant clusters or precipitates, depending upon the dopant element.…”

Section: Introductionmentioning

confidence: 99%

Deactivation of metastable single-crystal silicon hyperdoped with sulfur

Simmons

Akey

Krich

et al. 2013

Journal of Applied Physics

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Silicon supersaturated with sulfur by ion implantation and pulsed laser melting exhibits broadband optical absorption of photons with energies less than silicon's band gap. However, this metastable, hyperdoped material loses its ability to absorb sub-band gap light after subsequent thermal treatment. We explore this deactivation process through optical absorption and electronic transport measurements of sulfur-hyperdoped silicon subject to anneals at a range of durations and temperatures. The deactivation process is well described by the Johnson-Mehl-AvramiKolmogorov framework for the diffusion-mediated transformation of a metastable supersaturated solid solution, and we find that this transformation is characterized by an apparent activation energy of E A ¼ 1:7 6 0:1 eV. Using this activation energy, the evolution of the optical and electronic properties for all anneal duration-temperature combinations collapse onto distinct curves as a function of the extent of reaction. We provide a mechanistic interpretation of this deactivation based on short-range thermally activated atomic movements of the dopants to form sulfur complexes. V C 2013 AIP Publishing LLC. [http://dx

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“…A detailed explanation can be found in Ref. In spite of longer As-Si bond as compared to the Si-Si bond length, there have been many experiments observing lattice contractions in heavily As-doped Si, which have been attributed to electrons in the conduction band [6,11,12]. To extract the energy vs. strain curve, we calculated the total free energy of 64 atom (or 63 atom with vacancy) supercells using the DFT code VASP [8] in generalized gradient approximation (GGA) with PW91 potential [9].…”

Section: Simulation and Resultsmentioning

confidence: 99%

Stress Effects on As Activation in Si

Ahn

Dunham

2007

MRS Proc.

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We studied stress effects on As activation in silicon using density functional theory. Based on lattice expansion coefficient, we calculated the formation energy change due to applied stress and plotted the stress dependence of the As m V concentration. We found that biaxial stress results in a minimal impact on As activation, which is consistent with experimental observations by Sugii et al. [J. Appl. Phys. 96, 261 (2004)], who found no change in the As activation under tensile stress.

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Electrical activity and structural evolution correlations in laser and thermally annealed As-implanted Si specimens

Cited by 66 publications

References 26 publications

Lattice compression of Si crystals and crystallographic position of As impurities measured with x-ray standing wave spectroscopy

Lattice compression of Si crystals and crystallographic position of As impurities measured with x-ray standing wave spectroscopy

Deactivation of metastable single-crystal silicon hyperdoped with sulfur

Stress Effects on As Activation in Si

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