Trivacancy and trivacancy-oxygen complexes in silicon: Experiments and<i>ab initio</i>modeling

Markevich, V. P.; Peaker, А. R.; Ластовский, С. Б.; Мурин, Л. И.; Coutinho, J.; Torres, V.J.B.; Briddon, P.R.; Dobaczewski, L.; Monakhov, E. V.; Svensson, B. G.

doi:10.1103/physrevb.80.235207

Cited by 59 publications

(86 citation statements)

References 33 publications

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“…The identication was done on the grounds of the results presented in Refs. [1,17,19,20]. These results show that V 3 in the form of chain built up of single vacancies occurring in (110) plane gives rise to two acceptor levels located at a small distance above the midgap [1,17,19].…”

Section: Methodsmentioning

confidence: 67%

“…These results show that V 3 in the form of chain built up of single vacancies occurring in (110) plane gives rise to two acceptor levels located at a small distance above the midgap [1,17,19]. According to DLTS measurements, the two levels corresponding to V 3 (2-/-) and V 3 (-/0) are located at 0.36 and 0.46 eV below the conduction band edge (E c ), respectively [17]. Moreover, the results of ab initio calculation indicate that the rst acceptor level of V 3 with the C 2v symmetry is placed deeper in the bandgap at E c − 0.50 eV [1,17,19].…”

Section: Methodsmentioning

confidence: 78%

“…According to DLTS measurements, the two levels corresponding to V 3 (2-/-) and V 3 (-/0) are located at 0.36 and 0.46 eV below the conduction band edge (E c ), respectively [17]. Moreover, the results of ab initio calculation indicate that the rst acceptor level of V 3 with the C 2v symmetry is placed deeper in the bandgap at E c − 0.50 eV [1,17,19].…”

Section: Methodsmentioning

confidence: 96%

“…[1,17,19,20]. These results show that V 3 in the form of chain built up of single vacancies occurring in (110) plane gives rise to two acceptor levels located at a small distance above the midgap [1,17,19]. According to DLTS measurements, the two levels corresponding to V 3 (2-/-) and V 3 (-/0) are located at 0.36 and 0.46 eV below the conduction band edge (E c ), respectively [17].…”

Section: Methodsmentioning

confidence: 99%

“…[16,17], the traps TR5 and TR8, detected in the both kinds of samples, are attributed to the divacancyoxygen complex in various charge states: V 2 O (2-/-) and V 2 O (-/0), respectively. The formation of this complex is through the interaction of migrating divacancy with interstitial oxygen [16].…”

Section: Methodsmentioning

confidence: 99%

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Characterization of Radiation Defect Centers in Neutron Irradiated Si Using Inverse Laplace Transformation to Analysis of Photocurrent Relaxation Waveforms

2014

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High-resolution photoinduced transient spectroscopy has been applied to investigating the eect of the 1 MeV neutron uence on the electronic properties of radiation defects in Czochralski grown silicon in magnetic eld. A new approach to the analysis of the photocurrent relaxation waveforms as a function of time and temperature has been presented. It is based on using a two-dimensional numerical procedure with implementation of the inverse Laplace transformation for creating images of the sharp spectral fringes depicting the temperature dependences of the thermal emission rate for detected defect centers. In the material irradiated with the uence of 3 × 10 14 cm −2 , the dominant traps with activation energies of 75 meV and 545 meV are tentatively identied with an aggregate of three Si interstitials and the trivacancy, respectively. In the material irradiated with the uence by the order of magnitude higher, the activation energies of the main traps are found to be 115, 350, 505, 545, and 590 meV. These traps are tentatively attributed to an aggregate of four Si interstitials, as well as to vacancy related centers such as V3 (2-/-), V2O (-/0), V3 (-/0) and V4 (-/0), respectively.

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Section: Methodsmentioning

confidence: 67%

Section: Methodsmentioning

confidence: 78%

Section: Methodsmentioning

confidence: 96%

Section: Methodsmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

See 3 more Smart Citations

Characterization of Radiation Defect Centers in Neutron Irradiated Si Using Inverse Laplace Transformation to Analysis of Photocurrent Relaxation Waveforms

2014

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Structure and electronic properties of trivacancy and trivacancy‐oxygen complexes in silicon

Markevich

Peaker

Hamilton

et al. 2010

Physica Status Solidi (a)

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We have recently found that the silicon trivacancy (V3) is a bistable defect that can occur in fourfold coordinated and (110) planar configurations for both the neutral and singly negative charge states [V. P. Markevich et al., Phys. Rev. B 80, 235207 (2009)]. Acceptor levels of V3 in both these configurations have been determined. It has also been shown that at T > 200 °C, the interaction of mobile trivacancies with interstitial oxygen atoms results in the formation of V3O complex with the first and second acceptor levels at Ec −0.46 and −0.34 eV. In the present work we identify donor levels arising from V3 and V3O complexes by means of deep level transient spectroscopy (DLTS) and high‐resolution Laplace DLTS on n+p silicon structures irradiated with 6 MeV electrons, combined with density functional modeling studies. It is found that both defects possess two donor levels in the (110) planar configurations. First donor levels at Ev +0.19 and +0.235 eV, and the second donor levels at Ev +0.105 and +0.12 eV are found for the V3 and V3O complexes, respectively.

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Interaction of Radiation‐Induced Self‐Interstitials with Vacancy‐Oxygen Related Defects V_nO₂ (n from 1 to 3) in Silicon

Мурин

Tolkacheva

Ластовский

et al. 2018

Physica Status Solidi (a)

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Two stage electron irradiation with thermal heat‐treatments after each stage is used for vacancy‐oxygen‐related defect engineering in Czochralski‐grown silicon (Cz‐Si). The Cz‐Si samples are first irradiated at room temperature with 2.5 MeV electrons and then heat‐treated at 320 °C to anneal out the VO, V2O, and V3O centers and generate the VO2, V2O2, and V3O2 complexes as the dominant vacancy‐oxygen‐related defects. Subsequently, the samples are irradiated at room temperature again and subjected to 30‐min isochronal annealing in the temperature range 75–350 °C. Defect evolution upon the treatments is monitored by means of the local vibrational mode (LVM) absorption spectroscopy. From an analysis of changes in intensity of the LVM lines it is revealed that the second irradiation results in a noticeable decrease in the concentrations of the VO2, V2O2, and V3O2 complexes and an increase in the concentrations of the oxygen dimer and the VO2* defect (metastable state of VO2, which consists of the VO and Oi components). The observed defect transformations are argued to be related to interactions of the radiation‐induced self‐interstitial silicon atoms (I) with the vacancy‐oxygen complexes via the following reactions: VO2 + I → O2i, V3O2 + I → V2O2, V2O2 + I → VO2*.

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Trivacancy and trivacancy-oxygen complexes in silicon: Experiments andab initiomodeling

Cited by 59 publications

References 33 publications

Characterization of Radiation Defect Centers in Neutron Irradiated Si Using Inverse Laplace Transformation to Analysis of Photocurrent Relaxation Waveforms

Characterization of Radiation Defect Centers in Neutron Irradiated Si Using Inverse Laplace Transformation to Analysis of Photocurrent Relaxation Waveforms

Structure and electronic properties of trivacancy and trivacancy‐oxygen complexes in silicon

Interaction of Radiation‐Induced Self‐Interstitials with Vacancy‐Oxygen Related Defects V_nO₂ (n from 1 to 3) in Silicon

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Trivacancy and trivacancy-oxygen complexes in silicon: Experiments andab initiomodeling

Cited by 59 publications

References 33 publications

Characterization of Radiation Defect Centers in Neutron Irradiated Si Using Inverse Laplace Transformation to Analysis of Photocurrent Relaxation Waveforms

Characterization of Radiation Defect Centers in Neutron Irradiated Si Using Inverse Laplace Transformation to Analysis of Photocurrent Relaxation Waveforms

Structure and electronic properties of trivacancy and trivacancy‐oxygen complexes in silicon

Interaction of Radiation‐Induced Self‐Interstitials with Vacancy‐Oxygen Related Defects VnO2 (n from 1 to 3) in Silicon

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Interaction of Radiation‐Induced Self‐Interstitials with Vacancy‐Oxygen Related Defects V_nO₂ (n from 1 to 3) in Silicon