New Method for Double-Resonance Spectroscopy in a Cold Quadrupole Ion Trap and Its Application to UV–UV Hole-Burning Spectroscopy of Protonated Adenine Dimer

A novel method for double-resonance spectroscopy in a cold quadrupole ion trap is presented, which utilizes dipolar resonant excitation of fragment ions in the quadrupole ion trap. Photofragments by a burn laser are removed by applying an auxiliary RF to the trap, and a probe laser detects the deple...

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Veröffentlicht in:	The journal of physical chemistry letters 2014-08, Vol.5 (15), p.2760-2764
Hauptverfasser:	Kang, Hyuk, Féraud, Géraldine, Dedonder-Lardeux, Claude, Jouvet, Christophe
Format:	Artikel
Sprache:	eng
Schlagworte:	Atomic and Molecular Clusters Physics Spectroscopy, Photochemistry, and Excited States
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container_title	The journal of physical chemistry letters
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creator	Kang, Hyuk Féraud, Géraldine Dedonder-Lardeux, Claude Jouvet, Christophe
description	A novel method for double-resonance spectroscopy in a cold quadrupole ion trap is presented, which utilizes dipolar resonant excitation of fragment ions in the quadrupole ion trap. Photofragments by a burn laser are removed by applying an auxiliary RF to the trap, and a probe laser detects the depletion of photofragments by the burn laser. By scanning the wavelength of the burn laser, conformation-specific UV spectrum of a cold ion is obtained. This simple and powerful method is applicable to any type of double-resonance spectroscopy in a cold quadrupole ion trap and was applied to UV–UV hole-burning spectroscopy of protonated adenine dimer. It was found that protonated adenine dimer has multiple conformers/tautomers, each with multiple excited states with drastically different excited state dynamics.
doi_str_mv	10.1021/jz5012466
format	Article
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subjects	Atomic and Molecular Clusters Physics Spectroscopy, Photochemistry, and Excited States
title	New Method for Double-Resonance Spectroscopy in a Cold Quadrupole Ion Trap and Its Application to UV–UV Hole-Burning Spectroscopy of Protonated Adenine Dimer
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