2009
DOI: 10.1002/pssb.200945082
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Spin‐coupling and hyperfine interaction of the nitrogen donors in 6H‐SiC

Abstract: The X‐, Q‐band field‐sweep electron spin echo (FS ESE) study of n‐type 6H‐SiC wafers shows besides the well known hyperfine (hf) triplet lines of 14N on two quasi‐cubic (Nc1, Nc2) and hexagonal (Nh) sites additional triplet lines (Nx) of comparatively low intensity with a g ‐tensor of about the average value of the Nc2 and Nh spectrum at 4.2 K. The Nx triplet has half of the hf splitting with respect to the nitrogen residing at cubic sites Nc2. Pulsed electron nuclear double resonance (ENDOR) measurements perf… Show more

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Cited by 17 publications
(26 citation statements)
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“…But despite of the conclusion made on the basis of this ENDOR study of N donors some fundamental questions related to the spatial distribution of the electronic wave function of the isolated N donors residing at the two quasi‐cubic sites in 6H‐SiC were not well understood yet. A major obstacle in previous ENDOR studies of the N donors at cubic sites 15 was that the 29 Si and 13 C ENDOR signals could not be unambiguously assigned to either the N k1 or N k2 site. Furthermore the shf lines observed in the EPR and ENDOR spectra could not be ascribed to specific C and Si atoms located around the N k1 and N k2 sites in 6H SiC as well as the relative sign of the shfi constants for N donors were not obtained yet.…”
Section: Introductionmentioning
confidence: 98%
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“…But despite of the conclusion made on the basis of this ENDOR study of N donors some fundamental questions related to the spatial distribution of the electronic wave function of the isolated N donors residing at the two quasi‐cubic sites in 6H‐SiC were not well understood yet. A major obstacle in previous ENDOR studies of the N donors at cubic sites 15 was that the 29 Si and 13 C ENDOR signals could not be unambiguously assigned to either the N k1 or N k2 site. Furthermore the shf lines observed in the EPR and ENDOR spectra could not be ascribed to specific C and Si atoms located around the N k1 and N k2 sites in 6H SiC as well as the relative sign of the shfi constants for N donors were not obtained yet.…”
Section: Introductionmentioning
confidence: 98%
“…With the aim to find the shf lines with the larger constants just as obtained for 4H SiC, N donors were studied by EPR 13, field sweep electron spin echo, (FS ESE) and pulsed ENDOR methods in 6H SiC 15. Shf satellite lines were also found in 14 N EPR and FS ESE spectra, which correspond to shfi constants significantly larger than those observed previously in the ENDOR spectra of 6H SiC and confirmed in that way that a careful pulsed ENDOR study in the high‐frequency range is also required for this polytype.…”
Section: Introductionmentioning
confidence: 99%
“…14 As shown in Fig. 3, these C hf structures are best fitted with assuming the hf interactions with 6 and 3 equivalent 13 C atoms, respectively, as predicted from the calculations ($20.4 MHz for six C-atoms and $14.6 MHz for three C atoms). The agreement between EPR and calculations in the Si hf structure of N C (k 1 ) and the C hf structures of N C (k 2 ) supports the conclusion that the missing of the Si hf structure of N C (k 2 ) can be explained by the nature of the floating states, i.e., the spin density is distributed in the interstitial channels around the Si atoms, and it does not require the model of N substituting Si atom at k 2 site in 6 H SiC.…”
Section: Resultsmentioning
confidence: 62%
“…10: In both 4 H an 6 H SiC, this interaction is weak for N C (h), and strong when N resides at the quasi-cubic sites. However, the previous results about the hf structure of N donor for proximate 13 C and 29 Si isotopes in 4 H and 6 H SiC (Refs. 10-14) are contradictory.…”
Section: Introductionmentioning
confidence: 79%
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