Coherent nuclear wave packets in the product state launched by the ultrafast intramolecular charge transfer are observed by time-resolved fluorescence with 40 fs time resolution. Direct information on reaction coordinates and structural changes can be obtained
Internal conversion is the first step after photoexcitation to high lying electronic states, and pla...
The time evolution of H2+ (D2+) nuclear wave packets is studied exploiting a combination of coincide...
We traced the femtosecond nuclear-wave-packet dynamics in ionic states of oxygen and nitrogen diatom...
Abstract. Coherent nuclear wave packets in the product state launched by the ultrafast intramolecula...
lntramolecular charge-transfer (ICT) dynamics, including reaction coordinates, structural changes, a...
DoctorThe elementary processes that lead to ultrafast chemical transformations occur at the fundamen...
Persistence of vibrational coherence in electronic transition has been noted especially in biochemic...
Persistence of vibrational coherence in electronic transition has been noted especially in biochemic...
Femtosecond probing of nuclear motion in an alkali halide (NaI) reaction reveals a persistent wave p...
The motion and dimension of molecular nuclear wave packets produced by an ultrashort laser pulse are...
Proton transfer reaction is one of the most fundamental processes in chemistry and life science. Exc...
Observing the motion of the nuclear wave packets during a molecular reaction, in both space and time...
Coherent nuclear wave packet motions in an electronic excited state of a molecule are measured direc...
Time-domain spectroscopies with time resolution shorter than the vibrational periods of interest wer...
We report the results of a time-resolved coincident ion momentum imaging experiment probing nuclear ...
Internal conversion is the first step after photoexcitation to high lying electronic states, and pla...
The time evolution of H2+ (D2+) nuclear wave packets is studied exploiting a combination of coincide...
We traced the femtosecond nuclear-wave-packet dynamics in ionic states of oxygen and nitrogen diatom...
Abstract. Coherent nuclear wave packets in the product state launched by the ultrafast intramolecula...
lntramolecular charge-transfer (ICT) dynamics, including reaction coordinates, structural changes, a...
DoctorThe elementary processes that lead to ultrafast chemical transformations occur at the fundamen...
Persistence of vibrational coherence in electronic transition has been noted especially in biochemic...
Persistence of vibrational coherence in electronic transition has been noted especially in biochemic...
Femtosecond probing of nuclear motion in an alkali halide (NaI) reaction reveals a persistent wave p...
The motion and dimension of molecular nuclear wave packets produced by an ultrashort laser pulse are...
Proton transfer reaction is one of the most fundamental processes in chemistry and life science. Exc...
Observing the motion of the nuclear wave packets during a molecular reaction, in both space and time...
Coherent nuclear wave packet motions in an electronic excited state of a molecule are measured direc...
Time-domain spectroscopies with time resolution shorter than the vibrational periods of interest wer...
We report the results of a time-resolved coincident ion momentum imaging experiment probing nuclear ...
Internal conversion is the first step after photoexcitation to high lying electronic states, and pla...
The time evolution of H2+ (D2+) nuclear wave packets is studied exploiting a combination of coincide...
We traced the femtosecond nuclear-wave-packet dynamics in ionic states of oxygen and nitrogen diatom...