1999
DOI: 10.1063/1.479262
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Compton profile study of bonding in BeO

Abstract: The isotropic Compton profile of BeO has been measured using a γ-ray Compton spectrometer which employs a 5 Ci annular Am241 source. The measurement is compared with the theoretical HF-LCAO Compton profile published by Lichanot et al. The measurement has also been compared with our calculations based on the RFA model employing different ionic wavefunctions. It is seen that the experimental Compton profile is in very good agreement with the HF-LCAO calculations. To determine the nature of bonding, equal-valence… Show more

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Cited by 53 publications
(17 citation statements)
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“…Since the high-frequency dielectric constant represents only electronic contributions to dielectric permittivity and the low-frequency dielectric constant includes electronic, ionic, and configurational contributions, 193 the higher low-frequency dielectric constant for HfO 2 points toward essentially complete ionic bonding and possibly some configurational contributions. 4 This is consistent with the significant covalent bonding character reported for BeO, AlN, 194,195 and, to a lesser degree, Al 2 O 3 .…”
supporting
confidence: 87%
“…Since the high-frequency dielectric constant represents only electronic contributions to dielectric permittivity and the low-frequency dielectric constant includes electronic, ionic, and configurational contributions, 193 the higher low-frequency dielectric constant for HfO 2 points toward essentially complete ionic bonding and possibly some configurational contributions. 4 This is consistent with the significant covalent bonding character reported for BeO, AlN, 194,195 and, to a lesser degree, Al 2 O 3 .…”
supporting
confidence: 87%
“…Figure depicts that the EVED profile corresponding to AlAs is larger around the low momentum region compared to AlN. As the larger value around low momentum is attributed to larger covalent character [32], it points that AlAs is more covalent and less ionic than AlN in agreement with earlier studies [33,34]. The larger anisotropies in AlAs compared to the AlN also confirm these findings.…”
Section: Equal Valence Electron Density Profilessupporting
confidence: 87%
“…It might be due to difference in bonding characteristics of WS 2 and WSe 2 . It is established that covalent bonding is a result of overlap of wave functions in the direction of bonding, it increases localisation of charge along the bond direction leading to sharper Compton line shape [38]. Thus the sharper line shape seen in the EVED plot of WSe 2 can be attributed to more covalent bonding character of WSe 2 as compared to WS 2 .…”
Section: Eved Profilesmentioning
confidence: 93%