Heidelberg 2015 – scientific programme

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MO: Fachverband Molekülphysik

MO 22: Femtosecond Spectroscopy 3

MO 22.6: Talk

Friday, March 27, 2015, 12:15–12:30, PH/HS1

Ultrafast Dissociation Dynamics of Superexcited Nitrogen — •Johan Hummert¹, Martin Eckstein¹, Daniel Strasser², Marc J. J. Vrakking¹, and Oleg Kornilov¹ — ¹Max Born Institut, Berlin, Germany — ²Institute of Chemistry, The Hebrew University of Jerusalem, Israel

Understanding relaxation pathways of neutral superexcited states in elementary molecules is important to model the chemistry of environments exposed to XUV and other ionizing radiation. Such species occur in terrestial and extraterrestrial atmospheres and in man-made environments. Additionally the coupling of electronic and nuclear degrees of freedom in superexcited states is particularly interesting since the Born-Oppenheimer approximation is often strongly violated.

In this experimental work we investigate dissociation dynamics of superexicted states of molecular nitrogen excited by pulsed XUV light. We employ a high harmonic generation source in combination with a time-compensating XUV monochromator to select the 15th harmonic of a 790 nm IR laser pulse at 23.6 eV, which is just below the threshold for dissociative ionization of N₂ (24.25 eV). A second laser pulse at the wavelength of 790 nm probes the highly excited molecules or fragments after a time-delay ionizing them to produce the detected N⁺ ions.

The recorded transient signals demonstrate both a very quickly decaying component (about 40 fs) as well as a long-lived contribution. Preliminary assignments suggest competition between predissociation from Rydberg-type states converging to the ionic C²Σ_u⁺ state and autoionization leading to bound ions.