We resolve attosecond dynamics of multiphoton ionization in solids. We subdivide the laser cycle using differential absorption between the major and the minor axes of elliptically polarized beam. \ua92007 Optical Society of America.Peer reviewed: YesNRC publication: Ye
Temporal gating allows high accuracy time-resolved measurements of a broad range of ultrafast proces...
Wide band gap dielectrics remain transparent for low intensity near-infrared light. However, when li...
In this paper, a 3-dimensional photoelectron/ion momentum spectrometer (reaction microscope) combine...
Attosecond science has arisen from intense light pulses interacting with low density gases. We show ...
We demonstrate an all-optical pump-probe technique to resolve attosecond ionization dynamics in tran...
We observe an optical signature induced by the modulation of electron density inside a bulk transpar...
We observe an optical signature induced by the modulation of electron density inside a bulk transpar...
The main topic of this thesis is the time-resolved study of the dynamics occurring during the strong...
The dynamics of Stark shift and Autoionization in atoms are probed in a transient absorption scheme ...
Electric-field-induced charge separation (polarization) is the most fundamental manifestation of the...
The last two decades have witnessed the emergence of attosecond science, a new discipline that lever...
Isolated attosecond pulses with low photon energies (~12-40 eV) are used to probe suboptical-cycle d...
All aspects of attosecond technology rely on electron wavepackets formed by ionization and controlle...
Attosecond transient absorption experiments are performed to study strong-field ionization dynamics ...
We identify a laser configuration in which attosecond electron wave packets are ionized, accelerated...
Temporal gating allows high accuracy time-resolved measurements of a broad range of ultrafast proces...
Wide band gap dielectrics remain transparent for low intensity near-infrared light. However, when li...
In this paper, a 3-dimensional photoelectron/ion momentum spectrometer (reaction microscope) combine...
Attosecond science has arisen from intense light pulses interacting with low density gases. We show ...
We demonstrate an all-optical pump-probe technique to resolve attosecond ionization dynamics in tran...
We observe an optical signature induced by the modulation of electron density inside a bulk transpar...
We observe an optical signature induced by the modulation of electron density inside a bulk transpar...
The main topic of this thesis is the time-resolved study of the dynamics occurring during the strong...
The dynamics of Stark shift and Autoionization in atoms are probed in a transient absorption scheme ...
Electric-field-induced charge separation (polarization) is the most fundamental manifestation of the...
The last two decades have witnessed the emergence of attosecond science, a new discipline that lever...
Isolated attosecond pulses with low photon energies (~12-40 eV) are used to probe suboptical-cycle d...
All aspects of attosecond technology rely on electron wavepackets formed by ionization and controlle...
Attosecond transient absorption experiments are performed to study strong-field ionization dynamics ...
We identify a laser configuration in which attosecond electron wave packets are ionized, accelerated...
Temporal gating allows high accuracy time-resolved measurements of a broad range of ultrafast proces...
Wide band gap dielectrics remain transparent for low intensity near-infrared light. However, when li...
In this paper, a 3-dimensional photoelectron/ion momentum spectrometer (reaction microscope) combine...
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