Evidence for lambda doublet propensity in the UV photodissociation of ozone-Reference-Cited by-同舟云学术

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Evidence for lambda doublet propensity in the UV photodissociation of ozone

Published:2019-12-14 Issue:22 Volume:151 Page:224302
ISSN:0021-9606
Container-title:The Journal of Chemical Physics
language:en
Short-container-title:J. Chem. Phys.

Author:

Gunthardt Carolyn E.¹,Aardema Megan N.¹,Hall Gregory E.²^ORCID,North Simon W.¹^ORCID

Affiliation:

1. Department of Chemistry, Texas A&M University, College Station, Texas 77842, USA

2. Chemistry Division, Brookhaven National Laboratory P.O. Box 5000 Upton, New York 11973-5000, USA

Funder

Welch Foundation

Publisher

AIP Publishing

Subject

Physical and Theoretical Chemistry,General Physics and Astronomy

Link

http://aip.scitation.org/doi/pdf/10.1063/1.5131504

Reference81 articles.

1. Vector correlations in the O2(a1Δg, v = 1) fragment formed in the 265 nm photodissociation of ozone

2. Speed dependent rotational angular momentum polarization of the O2 (aΔg1) fragment following ozone photolysis in the wavelength range 248–265nm

3. Probing the O2 (aΔg1) photofragment following ozone dissociation within the long wavelength tail of the Hartley band

4. The "Ozone Deficit" Problem: O 2 ( X, v ≥ 26) + O( 3 P ) from 226-nm Ozone Photodissociation

5. Photodissociation of ozone in the Hartley band: Fluctuation of the vibrational state distribution in the O2(1Δg) fragment

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1. Wavelength-Dependent Dynamics of the O(¹D₂) Channel in the ¹Δ_u State Photodissociation of CO₂;The Journal of Physical Chemistry A;2024-04-04

2. Quantum Dynamics of Photodissociation: Recent Advances and Challenges;The Journal of Physical Chemistry Letters;2023-11-16

3. Rotational Distributions and Imaging of Singlet O₂ Following Spin-Forbidden Photodissociation of O₃;The Journal of Physical Chemistry A;2023-08-04

4. Ozone Photodissociation in the Singlet Channel at 226 nm;The Journal of Physical Chemistry A;2022-09-21

5. Dynamics and vector correlations of vacuum ultraviolet (VUV) photodissociation of CO2 at 155 nm;Physical Chemistry Chemical Physics;2022

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