Reaction dynamics of H + O2 at 1.6 eV collision energy

Bronikowski, Michael J.; Zhang, Rong; Rakestraw, David J.; Zare, Richard N.

The hot hydrogen atom reaction, H + O2 yields OH + O, has been studied at a center of mass collision energy of 1.6 eV. H atoms were generated by 266 nm photolysis of HI in a mixture of HI and O2 at 293 K. The OH product was probed by laser induced fluorescence and the nascent OH vibrational, rotational, and fine structure distributions were determined. The OH(v=0)/OH(v=1) vibrational branching ratio was measured to be 1.72 + or - 0.09. The data suggest that the H + O2 reaction at this collision energy proceeds via two competing mechanisms: reaction involving a long-lived complex and direct reaction.

Document ID

19900061996

Acquisition Source

Legacy CDMS

Document Type

Reprint (Version printed in journal)

External Source(s)

doi:10.1016/0009-2614(89)87071-X

Authors

Date Acquired

August 14, 2013

Publication Date

March 24, 1989

Publication Information

Publication: Chemical Physics Letters

Volume: 156

ISSN: 0009-2614

Subject Category

Accession Number

90A49051

Funding Number(s)

Distribution Limits

Public

Other

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