Spectroscopic characterization of the unusually strongly bound, doubly excited van der Waals state, Mg(3pπ3pπ 3PJ)⋅Kr[3Σ−]

The unusual doubly excited van der Waal’s state, Mg(3pπ3pπ 3PJ)⋅Kr[3Σ−], has been characterized using a laser-vaporization, supersonic-jet source and R2PI (Resonance Two-Photon Ionization) spectroscopy. This state is very strongly bound (De=3966 cm−1) and has a short bond length (Re=2.45 Å) compared...

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Veröffentlicht in:	The Journal of chemical physics 1998-11, Vol.109 (18), p.7777-7783
Hauptverfasser:	Leung, Allen W. K., McCaffrey, John G., Breckenridge, W. H.
Format:	Artikel
Sprache:	eng ; jpn
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container_end_page	7783
container_issue	18
container_start_page	7777
container_title	The Journal of chemical physics
container_volume	109
creator	Leung, Allen W. K. McCaffrey, John G. Breckenridge, W. H.
description	The unusual doubly excited van der Waal’s state, Mg(3pπ3pπ 3PJ)⋅Kr[3Σ−], has been characterized using a laser-vaporization, supersonic-jet source and R2PI (Resonance Two-Photon Ionization) spectroscopy. This state is very strongly bound (De=3966 cm−1) and has a short bond length (Re=2.45 Å) compared to its singly excited analogue, Mg(3s3pπ 3PJ)⋅Kr[3Π0−], for which De=267 cm−1 and Re=3.48 Å. In fact, this state is even more than twice as strongly bound as the ground-state Mg(3s)+⋅Kr ion, where De=1949 cm−1 and Re≈2.8 Å. Possible reasons for the strong van der Waal’s bonding are discussed, and it is concluded that the lack of σ-σ repulsion because there is no Mg(3sσ) valence electron must be a major factor; the similar ionic van der Waal’s state Mg+(3pπ)⋅Kr[2Π], which would be obtained by removing one of the Mg(3pπ) electrons, is even more strongly bound, with De≈7200 cm−1 [J. S. Pilgrim, C. S. Yeh, K. R. Berry, and M. A. Duncan, J. Chem. Phys. 100, 7945 (1994)].
doi_str_mv	10.1063/1.477423
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K. ; McCaffrey, John G. ; Breckenridge, W. H.</creator><creatorcontrib>Leung, Allen W. K. ; McCaffrey, John G. ; Breckenridge, W. H.</creatorcontrib><description>The unusual doubly excited van der Waal’s state, Mg(3pπ3pπ 3PJ)⋅Kr[3Σ−], has been characterized using a laser-vaporization, supersonic-jet source and R2PI (Resonance Two-Photon Ionization) spectroscopy. This state is very strongly bound (De=3966 cm−1) and has a short bond length (Re=2.45 Å) compared to its singly excited analogue, Mg(3s3pπ 3PJ)⋅Kr[3Π0−], for which De=267 cm−1 and Re=3.48 Å. In fact, this state is even more than twice as strongly bound as the ground-state Mg(3s)+⋅Kr ion, where De=1949 cm−1 and Re≈2.8 Å. Possible reasons for the strong van der Waal’s bonding are discussed, and it is concluded that the lack of σ-σ repulsion because there is no Mg(3sσ) valence electron must be a major factor; the similar ionic van der Waal’s state Mg+(3pπ)⋅Kr[2Π], which would be obtained by removing one of the Mg(3pπ) electrons, is even more strongly bound, with De≈7200 cm−1 [J. S. Pilgrim, C. S. Yeh, K. R. Berry, and M. A. Duncan, J. Chem. 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Possible reasons for the strong van der Waal’s bonding are discussed, and it is concluded that the lack of σ-σ repulsion because there is no Mg(3sσ) valence electron must be a major factor; the similar ionic van der Waal’s state Mg+(3pπ)⋅Kr[2Π], which would be obtained by removing one of the Mg(3pπ) electrons, is even more strongly bound, with De≈7200 cm−1 [J. S. Pilgrim, C. S. Yeh, K. R. Berry, and M. A. Duncan, J. Chem. 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H.</creatorcontrib><collection>CrossRef</collection><jtitle>The Journal of chemical physics</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Leung, Allen W. K.</au><au>McCaffrey, John G.</au><au>Breckenridge, W. H.</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>Spectroscopic characterization of the unusually strongly bound, doubly excited van der Waals state, Mg(3pπ3pπ 3PJ)⋅Kr[3Σ−]</atitle><jtitle>The Journal of chemical physics</jtitle><date>1998-11-08</date><risdate>1998</risdate><volume>109</volume><issue>18</issue><spage>7777</spage><epage>7783</epage><pages>7777-7783</pages><issn>0021-9606</issn><eissn>1089-7690</eissn><abstract>The unusual doubly excited van der Waal’s state, Mg(3pπ3pπ 3PJ)⋅Kr[3Σ−], has been characterized using a laser-vaporization, supersonic-jet source and R2PI (Resonance Two-Photon Ionization) spectroscopy. This state is very strongly bound (De=3966 cm−1) and has a short bond length (Re=2.45 Å) compared to its singly excited analogue, Mg(3s3pπ 3PJ)⋅Kr[3Π0−], for which De=267 cm−1 and Re=3.48 Å. In fact, this state is even more than twice as strongly bound as the ground-state Mg(3s)+⋅Kr ion, where De=1949 cm−1 and Re≈2.8 Å. Possible reasons for the strong van der Waal’s bonding are discussed, and it is concluded that the lack of σ-σ repulsion because there is no Mg(3sσ) valence electron must be a major factor; the similar ionic van der Waal’s state Mg+(3pπ)⋅Kr[2Π], which would be obtained by removing one of the Mg(3pπ) electrons, is even more strongly bound, with De≈7200 cm−1 [J. S. Pilgrim, C. S. Yeh, K. R. Berry, and M. A. Duncan, J. Chem. Phys. 100, 7945 (1994)].</abstract><doi>10.1063/1.477423</doi><tpages>7</tpages></addata></record>
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title	Spectroscopic characterization of the unusually strongly bound, doubly excited van der Waals state, Mg(3pπ3pπ 3PJ)⋅Kr[3Σ−]
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