The present status and development of strong-field nano-optics, an emerging field of
nonlinear optics, is discussed. A nonperturbative regime of light-matter interactions is …

Attosecond science has paved the way for direct probing of electron dynamics in gases and
solids. This review provides an overview of recent attosecond measurements, focusing on …

We review the first ten years of attosecond science with a selection of recent highlights and
trends and give an outlook on future directions. After introducing the main spectroscopic …

The active control of matter by strong electromagnetic fields is of growing importance, with
applications all across the optical spectrum from the extreme-ultraviolet to the far-infrared. In …

We present an implementation of the time-dependent configuration-interaction singles
(TDCIS) method for treating atomic strong-field processes. In order to absorb the …

We present the perfect waveform which, during a strong field interaction, generates the
maximum possible electron recollision energy for any given oscillation period, over 3 times …

We present a theoretical study of transient absorption and reshaping of extreme ultraviolet
(XUV) pulses by helium atoms dressed with a moderately strong infrared (IR) laser field. We …

We study the optical response of a resonant medium possessing nonlinear coupling to an
external field driven by a few-cycle pump pulse sequence. We demonstrate the possibility of …

We propose a strikingly simple method to form approximately unipolar half-cycle optical
pulses via reflection of a single-cycle optical pulse from a thin flat metallic or dielectric layer …

The broad bandwidth of an isolated attosecond pulse excites a vast number of states
simultaneously, and the corresponding absorption features can be monitored with …