A theoretical study of AmOn and CmOn (n = 1, 2)

Attila Kovács; Rudy J.M. Konings; Juraj Raab; Laura Gagliardi

doi:10.1039/b714853d

A theoretical study of AmO_n and CmO_n (n = 1, 2)

Attila Kovács, Rudy J.M. Konings, Juraj Raab, Laura Gagliardi

Chemistry (Twin Cities)

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Abstract

Americium and curium oxides AmO_n and CmO_n (n = 1, 2) were studied using state-of-the-art multiconfigurational, relativistic, quantum chemical methods. Spectroscopic properties for the ground state and several excited states of the four target compounds were determined. The computed dissociation energy of AmO (4.6 eV) agrees fairly well with estimates derived from experimental studies (5.73 ± 0.37 eV) while the computed dissociation energy of CmO (7.1 eV) agrees well with the experimental value (7.5 eV). The computed ionization energy of AmO (6.3 eV) is in good agreement with the current experimental value (5.9 ± 0.2 eV).

Original language	English (US)
Pages (from-to)	1114-1117
Number of pages	4
Journal	Physical Chemistry Chemical Physics
Volume	10
Issue number	8
DOIs	https://doi.org/10.1039/b714853d
State	Published - 2008

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abstract = "Americium and curium oxides AmOn and CmOn (n = 1, 2) were studied using state-of-the-art multiconfigurational, relativistic, quantum chemical methods. Spectroscopic properties for the ground state and several excited states of the four target compounds were determined. The computed dissociation energy of AmO (4.6 eV) agrees fairly well with estimates derived from experimental studies (5.73 ± 0.37 eV) while the computed dissociation energy of CmO (7.1 eV) agrees well with the experimental value (7.5 eV). The computed ionization energy of AmO (6.3 eV) is in good agreement with the current experimental value (5.9 ± 0.2 eV).",

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AB - Americium and curium oxides AmOn and CmOn (n = 1, 2) were studied using state-of-the-art multiconfigurational, relativistic, quantum chemical methods. Spectroscopic properties for the ground state and several excited states of the four target compounds were determined. The computed dissociation energy of AmO (4.6 eV) agrees fairly well with estimates derived from experimental studies (5.73 ± 0.37 eV) while the computed dissociation energy of CmO (7.1 eV) agrees well with the experimental value (7.5 eV). The computed ionization energy of AmO (6.3 eV) is in good agreement with the current experimental value (5.9 ± 0.2 eV).

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A theoretical study of AmO_n and CmO_n (n = 1, 2)

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