2008
DOI: 10.1103/physrevb.78.235204
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Symmetry of the phosphorus donor in diamond from first principles

Abstract: Phosphorus is the only donor in diamond which can be used technologically. Several ab initio theoretical models have been published on substitutional phosphorus, and most of them have predicted that it should have tetrahedral or trigonal symmetry. Recent ab initio calculations suggested that C 2v , C 3v , and D 2d conformations reduce the total energy. Electron-paramagnetic-resonance experiments performed on phosphorus-doped diamond revealed a phosphorus-related center with tetragonal symmetry, although the si… Show more

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Cited by 15 publications
(14 citation statements)
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“…The unpaired electron will be accommodated in one singlet ( b 2 ) state. As Figure (a) shows, the highest occupied molecular orbital has b 2 symmetry, in accordance with Butorac and Mainwood . Our calculations show that the ϵ (0/+) is located at E V + 4.20 eV, in agreement with the literature .…”
Section: Complex Co‐dopant Electronegativity Symmetry Donor Level supporting
confidence: 91%
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“…The unpaired electron will be accommodated in one singlet ( b 2 ) state. As Figure (a) shows, the highest occupied molecular orbital has b 2 symmetry, in accordance with Butorac and Mainwood . Our calculations show that the ϵ (0/+) is located at E V + 4.20 eV, in agreement with the literature .…”
Section: Complex Co‐dopant Electronegativity Symmetry Donor Level supporting
confidence: 91%
“…As Figure 1(a) shows, the highest occupied molecular orbital has b 2 symmetry, in accordance with Butorac and Mainwood. [12] Our calculations show that the e(0/þ) is located at E V þ 4.20 eV, in agreement with the literature. [1] Increase of the MP mesh did not lead to any significant change of e(0/þ) energy position (E V þ 4.25 eV).…”
supporting
confidence: 91%
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“…The energy level of a phosphorous-related donor, as derived from the D-A recombination spectra observed in phosphorous doped CVD diamond films, was known to be E D = 0.65 eV[46] (the lower value of 0.58 eV in the studied sample was obtained by Hall measurements[7]). Phosphorus excited states were calculated theoretically to be at 0.58, 0.48, 0.43, 0.39 eV below the conduction band[47]. Much stronger emission, observed from the excited state with respect to the ground one, can be explained by very slow excited state relaxation to the ground state (similar effect was observed in B-N doped diamond[48] for boron impurity).…”
mentioning
confidence: 87%
“…As per the N S center, in the neutral charge state P 0 S , one of these levels is occupied by an electron, whereas in the positive charge state P þ S , they are unoccupied [83][84][85]. It may be possible for NV-P S clusters to be created in a similar way as NV-N S clusters via N-P codoping or coimplantation.…”
Section: Appendix B: Consideration Of the P S Centermentioning
confidence: 99%