The dynamics of the reaction D2++N→ND++D

We report the results of a merged-beam study of the reaction D+2+N→ND++D over the range of relative kinetic energy from ∼0.005 to 10 eV. At low kinetic energies the reaction cross section is accurately proportional to the orbiting cross section calculated for the ion-induced dipole potential plus an...

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Veröffentlicht in:	The Journal of chemical physics 1977-03, Vol.66 (5), p.2079-2093
Hauptverfasser:	McClure, Donald J., Douglass, Charles H., Gentry, W. Ronald
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Sprache:	eng
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container_end_page	2093
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container_title	The Journal of chemical physics
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creator	McClure, Donald J. Douglass, Charles H. Gentry, W. Ronald
description	We report the results of a merged-beam study of the reaction D+2+N→ND++D over the range of relative kinetic energy from ∼0.005 to 10 eV. At low kinetic energies the reaction cross section is accurately proportional to the orbiting cross section calculated for the ion-induced dipole potential plus an experimentally estimated r−6 term. The reaction probability for the N(4Su) ground state is estimated to be at least 71% for low-energy orbiting collisions. The reaction mechanism is direct, with the ND+ product scattered preferentially forward with respect to the incident N atom velocity at initial kinetic energies as low as 0.031 eV. A deconvolution analysis of the measured product laboratory energy distributions shows a net conversion of internal to translational energy at initial kinetic energies less than 0.9 eV, and a net conversion of translational to internal energy at higher initial kinetic energies. We interpret the results in terms of the adiabatic electronic state correlations for NH+2 systems, taking into consideration previous work by Mahan and co-workers on the reaction N++H2→NH++H.
doi_str_mv	10.1063/1.434169
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Ronald</creator><creatorcontrib>McClure, Donald J. ; Douglass, Charles H. ; Gentry, W. Ronald</creatorcontrib><description>We report the results of a merged-beam study of the reaction D+2+N→ND++D over the range of relative kinetic energy from ∼0.005 to 10 eV. At low kinetic energies the reaction cross section is accurately proportional to the orbiting cross section calculated for the ion-induced dipole potential plus an experimentally estimated r−6 term. The reaction probability for the N(4Su) ground state is estimated to be at least 71% for low-energy orbiting collisions. The reaction mechanism is direct, with the ND+ product scattered preferentially forward with respect to the incident N atom velocity at initial kinetic energies as low as 0.031 eV. A deconvolution analysis of the measured product laboratory energy distributions shows a net conversion of internal to translational energy at initial kinetic energies less than 0.9 eV, and a net conversion of translational to internal energy at higher initial kinetic energies. 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Ronald</creatorcontrib><title>The dynamics of the reaction D2++N→ND++D</title><title>The Journal of chemical physics</title><description>We report the results of a merged-beam study of the reaction D+2+N→ND++D over the range of relative kinetic energy from ∼0.005 to 10 eV. At low kinetic energies the reaction cross section is accurately proportional to the orbiting cross section calculated for the ion-induced dipole potential plus an experimentally estimated r−6 term. The reaction probability for the N(4Su) ground state is estimated to be at least 71% for low-energy orbiting collisions. The reaction mechanism is direct, with the ND+ product scattered preferentially forward with respect to the incident N atom velocity at initial kinetic energies as low as 0.031 eV. A deconvolution analysis of the measured product laboratory energy distributions shows a net conversion of internal to translational energy at initial kinetic energies less than 0.9 eV, and a net conversion of translational to internal energy at higher initial kinetic energies. 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Ronald</creatorcontrib><collection>CrossRef</collection><jtitle>The Journal of chemical physics</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>McClure, Donald J.</au><au>Douglass, Charles H.</au><au>Gentry, W. Ronald</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>The dynamics of the reaction D2++N→ND++D</atitle><jtitle>The Journal of chemical physics</jtitle><date>1977-03-01</date><risdate>1977</risdate><volume>66</volume><issue>5</issue><spage>2079</spage><epage>2093</epage><pages>2079-2093</pages><issn>0021-9606</issn><eissn>1089-7690</eissn><abstract>We report the results of a merged-beam study of the reaction D+2+N→ND++D over the range of relative kinetic energy from ∼0.005 to 10 eV. At low kinetic energies the reaction cross section is accurately proportional to the orbiting cross section calculated for the ion-induced dipole potential plus an experimentally estimated r−6 term. The reaction probability for the N(4Su) ground state is estimated to be at least 71% for low-energy orbiting collisions. The reaction mechanism is direct, with the ND+ product scattered preferentially forward with respect to the incident N atom velocity at initial kinetic energies as low as 0.031 eV. A deconvolution analysis of the measured product laboratory energy distributions shows a net conversion of internal to translational energy at initial kinetic energies less than 0.9 eV, and a net conversion of translational to internal energy at higher initial kinetic energies. We interpret the results in terms of the adiabatic electronic state correlations for NH+2 systems, taking into consideration previous work by Mahan and co-workers on the reaction N++H2→NH++H.</abstract><doi>10.1063/1.434169</doi><tpages>15</tpages></addata></record>
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title	The dynamics of the reaction D2++N→ND++D
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