Snapshot imaging of postpulse transient molecular alignment revivals

Abstract

International audienceLaser induced field-free alignment of linear molecules is investigated by using a single-shot spatial imaging technique. The measurements are achieved by femtosecond time-resolved optical polarigraphy FTOP . Individual alignment revivals recorded at high resolution in CO2, as well as simultaneous observation of several alignment revivals produced within the rotational period of the O2 molecule are reported. The data are analyzed with a theoretical model describing the alignment experienced by each molecule standing within the interaction region observed by the detector. The temporal dynamics, intensity dependence, and degree of alignment are measured and compared with the awaited results. The technique is simple and can be easily implemented in a large class of molecular samples. Improvement to extend the performance of the method is discussed. The reported study is a decisive step toward feedback optimization and optimal control of field-free molecular alignment