The d 1Πg(v=1) Rydberg state of O2: Optical-optical double-resonance and Huggins-band ozone-photolysis, resonance-enhanced multiphoton-ionization studies with a b 1Σg+(v=0)-state platform-Reference-Cited by-同舟云学术

The d 1Πg(v=1) Rydberg state of O2: Optical-optical double-resonance and Huggins-band ozone-photolysis, resonance-enhanced multiphoton-ionization studies with a b 1Σg+(v=0)-state platform

Published:2002-11-15 Issue:19 Volume:117 Page:8705-8709
ISSN:0021-9606
Container-title:The Journal of Chemical Physics
language:en
Short-container-title:The Journal of Chemical Physics

Author:

O’Keeffe P.,Ridley T.,Sheard H. A.,Lawley K. P.,Donovan R. J.,Lewis B. R.

Publisher

AIP Publishing

Subject

Physical and Theoretical Chemistry,General Physics and Astronomy

Link

http://aip.scitation.org/doi/pdf/10.1063/1.1513462

Reference15 articles.

1. The (X 2Πg) nsσg 1,3Πg Rydberg states of O2: Spectra, structures, and interactions

2. Perturbations in the 3sσg 1,3Πg Rydberg states of O2: Bound–bound interactions with the second 1Πg and 1Δg valence states

3. Collisional removal of O2(b 1Σg+,v=1,2) by O2, N2, and CO2

4. An optical–optical double resonance study of the perturbed O2 d3sσg(1Πg) Rydberg state excited via single rotational levels of the b(1Σg+) valence state

5. An optical-optical double resonance study of the d3sσ[sub g]([sup 1]Π[sub g]) Rydberg state of O[sub 2] using b([sup 1]Σ[sub g][sup +]) as the resonant intermediate state

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

2. Photodissociation of Ozone from 321 to 329 nm: The Relative Yields of O(3P2) with O2(X 3Σg–), O2(a 1Δg) and O2(b 1Σg+);The Journal of Physical Chemistry A;2013-08-23

3. Quantum yields for product formation in the 120–133 nm photodissociation of O2;The Journal of Chemical Physics;2004-12

4. Two-photon REMPI spectra from and to in O2;Journal of Molecular Spectroscopy;2003-06

5. An optical–optical double-resonance study of the Rydberg states of O2. I. The ns and nd (gerade) states excited via single-rotational levels of the b 1Σ0g+ valence state;The Journal of Chemical Physics;2003-05-15