Fundamental dynamics in high intensity laser ionization

Randerson, Patrick J.

09 March 2005

No description available.

Above Threshold Ionization

Intense Field

Freeman Resonance

Single-Electron Structure and Dynamics in the Strong-Field Photoionization of Noble Gas Atoms and Diatomic Molecules

Walker, Mark Allen

20 December 2002

No description available.

femtosecond ionization

above threshold ionization

strong field ionization

Ultrafast imaging: laser induced electron diffraction

Xu, Junliang

January 1900

Doctor of Philosophy / Department of Physics / Chii-Dong Lin / Imaging of molecules has always occupied an essential role in physical, chemical and biological sciences. X-ray and electron diffraction methods routinely achieve sub-angstrom spatial resolutions but are limited to probing dynamical timescales longer than a picosecond. With the advent of femtosecond intense lasers, a new imaging paradigm emerges in last decade based on laser-induced electron diffraction (LIED). It has been placed on a firm foundation by the quantitative rescattering theory, which established that large-angle e-ion elastic differential cross sections (DCS) can be retrieved from the LIED spectrum. We further demonstrate that atomic potentials can be accurately retrieved from those extracted DCSs at energies from a few to several tens of electron volts. Extending to molecules, we show mid-infrared (mid-IR) lasers are crucial to generate high-energy electron wavepackets (> 100 eV) to resolve the atomic positions in a molecule. These laser-driven 100 eV electrons can incur core-penetrating collisions where the momentum transfer is comparable to those attained in conventional keV electron diffraction. Thus a simple independent atom model (IAM), which has been widely used in conventional electron diffractions, may apply for LIED. We theoretically examine and validate the applicability of IAM for electron energies above 100 eV using e-molecule large-angle collision data obtained in conventional experiments, demonstrating its resolving powers for bond lengths about 0.05 angstrom. The Validity of IAM is also checked by an experimental LIED investigation of rare gas atoms in the mid-IR regime. We show that the electron’s high energy promotes core-penetrating collisions at large scattering angles, where the e-atom interaction is dominated by the strong short range atomic-like potential. Finally, we analyze the measured LIED spectrum of N[subscript]2 and O[subscript]2 at three mid-IR wavelengths (1.7, 2.0, and 2.3 μm). As expected, the retrieved bond lengths of N[subscript]2 at three wavelengths are about same as the equilibrium N[subscript]2 bond length. For O[subscript]2, the data is also consistent with a bond length contraction of 0.1 angstrom within 4-6 fs after tunnel ionization. This investigation establishes a foundation for this novel imaging method for spatiotemporal imaging of gas-phase molecules at the atomic scale.

Ultrafast imaging

Laser induced electron diffraction

Above-threshold ionization

Strong laser physics

quantitative rescattering theory

Independent atom model

Physics (0605)

Etude des dynamiques moléculaires sondées par générations d'harmoniques d'ordres élevés / Studies of molecular dynamics probed by High Harmonic Generation

Ferré, Amelie

03 October 2014

Grâce à ses propriétés (cohérence, brillance, durée), le rayonnement XUV femtoseconde produit par génération d'harmoniques d'ordre élevé est utilisé comme un processus de sonde pour l'étude de dynamiques atomiques et moléculaires, avec une bonne résolution spatiale et temporelle (femtoseconde voire attoseconde). Ainsi, des dynamiques rotationnelles ont été résolues sur des petits systèmes moléculaires (N2, CO2). Les travaux de cette thèse ont consisté à étendre les méthodes de spectroscopie harmoniques et les appliquer à des systèmes moléculaires complexes d'intérêt femtochimique. Parmi elles, nous présenterons la génération d'harmoniques à deux sources, le réseau transitoire d'excitation ou encore la génération d'harmoniques à deux couleurs. Ces techniques nous ont permis de résoudre des dynamiques femtosecondes dans N2O4 et SF6. La HHG est aussi utilisée comme source de rayonnement XUV, en jouant le rôle d'impulsion pompe lors d'expériences de type pompe-sonde. Cette approche a été utilisée pour l'étude du dichroïsme circulaire de photoélectrons de molécules chirales ionisées par un champ XUV harmonique de polarisation quasi circulaire. Nous nous attarderons à détailler la découverte de cette nouvelle source XUV femtoseconde de polarisation quasi circulaire. / High harmonic generation (HHG) spectroscopy has proven to be a promisingtool (like probe in pump-probe experiments) in revealing the atomic and molecular dynamicswith the potential for subangstrom spatial resolution and subfemtosecond temporalresolution. Then, rotational dynamics have been resolved on small molecular systems (N2,CO2). This thesis looks to extending HHG spectroscopy methods to probe the structureand the dynamic of complex molecular systems. We will describe the two sources highharmonic generation, the transient grating of excitation and the two-color high harmonicgeneration. We enable to resolve the femtosecond nuclear dynamics in N2O4 and SF6. HHGis also used like a XUV radiation source, playing the role of pump pulse. This approach hasbeen used for the study of photoelectron circular dichroism. An XUV harmonic field witha quasi-circular polarization ionizes chiral molecules. In this manuscript, we will developthis new femtosecond XUV and quasi circular polarization radiation.

Interaction laser-matière

Spectroscopie harmonique

Attoseconde

Résonances

Polarimétrie XUV

Imagerie de vecteur vitesse

Ionisation au-dessus du seuil

Molécules chirales

Laser-matter interaction

High harmonic generation

Atomic and molecular femtosecond physics

Attosecond

Resonances

XUV Polarimetry

Velocity Map Imaging

Photoelectron Spectrometry

Above Threshold Ionization

Chiral molecules

Photoelectron Circular Dichroism