2010
DOI: 10.1002/pssb.201046237
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Ab initio Green's function calculation of hyperfine interactions for shallow defects in semiconductors

Abstract: The structural identification of shallow defects and the control of their concentration is one of the key ingredients in semiconductor technology. Electron paramagnetic resonance (EPR) is the most sensitive experimental technique to address this problem, but requires comparative theoretical simulation of the microscopic structures. Whereas the standard supercell approach provides an accurate first principles analysis of localized deep defects, the wave function of shallow dopants often extends over several tho… Show more

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Cited by 15 publications
(11 citation statements)
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“…Therefore, ab initio approaches are requested for the analysis of such detailed properties of the shfi parameters of the shallow donors, where rehybridization and spin polarization effects are hidden in real values of the product | u k ( r )| 2 ( S P ) 2 /| r l − r | 5 . This conclusion is supported by ab initio calculations of the hf and shf interactions for group‐V donors in Si which has been recently performed within Green's functions approach 28 and can be successfully applied for the description of the shfi constants of shallow N donors in SiC.…”
Section: Resultsmentioning
confidence: 68%
“…Therefore, ab initio approaches are requested for the analysis of such detailed properties of the shfi parameters of the shallow donors, where rehybridization and spin polarization effects are hidden in real values of the product | u k ( r )| 2 ( S P ) 2 /| r l − r | 5 . This conclusion is supported by ab initio calculations of the hf and shf interactions for group‐V donors in Si which has been recently performed within Green's functions approach 28 and can be successfully applied for the description of the shfi constants of shallow N donors in SiC.…”
Section: Resultsmentioning
confidence: 68%
“…A remarkable feat of such methods is that they are able to describe the correct defect wave functions well outside the region in which the potential (and possibly the structure) is perturbed. This is emphasized in the contribution by Gerstmann [15] in this issue. It is evidenced by the degree of accuracy with which it can describe hyperfine and super-hyperfine interactions.…”
Section: Periodic Boundary Artifactsmentioning
confidence: 89%
“…I have also tried to draw some attention to some of the ''forgotten'' problems and approaches, which were not very much represented during the workshop. In particular, the problem of EMT of shallow defects may see some revival and the paper included here on the Green's function approach [15] will hopefully remind some people of the promise held by this method.…”
Section: Expert Opinionmentioning
confidence: 98%
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