Ferenc Krausz

TL;DR: In this paper, it was demonstrated that the direction of electron emission from photoionized atoms can be controlled by varying the phase of the field, providing for the first time a tool for its accurate determination.

TL;DR: In this paper, the authors demonstrate the generation of soft X-ray undulator radiation with laser-plasma-accelerated electron beams using a 30-cm-long undulator and a 1.5 cm-long accelerator.

TL;DR: In this paper, the propagation of electromagnetic wave packets through 1D photonic band gap materials has been studied using 12 fs optical pulses and the measured transit time is paradoxically short (implying superluminal tunneling) and independent of the barrier thickness for opaque barriers.

TL;DR: The investigation of the fringes makes possible interferometry on the attosecond time scale and produces a situation in which one and the same electron encounters a single and a double slit at the same time.

TL;DR: It is demonstrated that intense optical attosecond pulses synthesized in the visible and nearby spectral ranges allow sub-femtosecond control and metrology of bound-electron dynamics, which could enable new spectroscopies of bound electrons in atomic, molecular or lattice potentials of solids, as well as light-based electronics operating on sub-FemTosecond timescales and at petahertz rates.