We introduce a time-domain approach to explore rotational dynamics caused by intramolecular coupling or the interaction with dissipative media. It pushes the time resolution toward the ultimate limit determined by the rotational period. Femtosecond pulses create a coherent superposition of two rotational states of carbon monoxide. The wave-packet motion is observed by subsequent Coulomb explosion, which results in a time-dependent asymmetry of spatial fragmentation patterns. The asymmetry oscillation prevails for at least 1 ns, covering more than 300 periods with no decoherence. Long time scans will allow weak perturbations of the order of \Delta E/E=10^{−4} to be discerne
We produce oriented rotational wave packets in CO and measure their characteristics via high harmoni...
The development of seeded, supersonic molecular-beam techniques [1] has made it possible to study dy...
International audienceWe propose a Markovian quantum model for the time dependence of the pressure-i...
033816We present an experimental and theoretical investigation of the quantum control of ground-stat...
Recording molecular movies on ultrafast timescales has been a longstanding goal for unravelling deta...
© 2020 Author(s). We reformulate a previous rotational coherent state (CS) to obtain temporally stab...
Laser pulses can create rotational wave packets in molecules that periodically revive as field-free ...
The objective of this dissertation is the experimental study and control of laser-kicked molecular r...
International audienceLight absorption of myoglobin triggers diatomic ligand photolysis and a spin c...
0021-9606Quantum control over molecular alignment rephasing is experimentally investigated in gaseou...
International audienceQuantum coherence plays an essential role in diverse natural phenomena and tec...
The motions of nuclei in a molecule can be mathematically described by using normal modes of vibrati...
We produce oriented rotational wave packets in CO and measure their characteristics via high harmoni...
The development of seeded, supersonic molecular-beam techniques [1] has made it possible to study dy...
International audienceWe propose a Markovian quantum model for the time dependence of the pressure-i...
033816We present an experimental and theoretical investigation of the quantum control of ground-stat...
Recording molecular movies on ultrafast timescales has been a longstanding goal for unravelling deta...
© 2020 Author(s). We reformulate a previous rotational coherent state (CS) to obtain temporally stab...
Laser pulses can create rotational wave packets in molecules that periodically revive as field-free ...
The objective of this dissertation is the experimental study and control of laser-kicked molecular r...
International audienceLight absorption of myoglobin triggers diatomic ligand photolysis and a spin c...
0021-9606Quantum control over molecular alignment rephasing is experimentally investigated in gaseou...
International audienceQuantum coherence plays an essential role in diverse natural phenomena and tec...
The motions of nuclei in a molecule can be mathematically described by using normal modes of vibrati...
We produce oriented rotational wave packets in CO and measure their characteristics via high harmoni...
The development of seeded, supersonic molecular-beam techniques [1] has made it possible to study dy...
International audienceWe propose a Markovian quantum model for the time dependence of the pressure-i...
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