Time-resolved measurements of quantum dynamics are based on the availability of controlled events that are shorter than the typical evolution time scale of the processes to be observed. Here we introduce the concept of noise-enhanced pump-probe spectroscopy, allowing the measurement of dynamics significantly shorter than the average pulse duration by exploiting randomly varying, partially coherent light fields consisting of bunched colored noise. These fields are shown to be superior by more than a factor of 10 to frequency-stabilized fields, with important implications for time-resolved experiments at x-ray free-electron lasers and, in general, for measurements at the frontiers of temporal resolution (e.g., attosecond spectroscopy). As an ...
openIn order to reveal a signal arising from a nonlinear interaction, several spectroscopic techniqu...
In this work the importance of phases in time-resolved spectroscopy is investigated in two respects....
Imperfect knowledge of the times at which ‘snapshots’ of a system are recorded degrades our ability ...
Time-resolved measurements of quantum dynamics are based on the availability of controlled events th...
We show how light fields that vary statistically in time (e.g. at FELs) enable higher temporal resol...
We show that, in optical pump-probe experiments on bulk samples, the statistical distribution of the...
n time-resolved spectroscopy, it is a widespread belief that the temporal resolution is determined b...
In this work the importance of phases in time-resolved spectroscopy is investigated in two respects....
Spectroscopic measurements with increasingly higher time resolution are generally thought to require...
Ultrafast spectroscopy allows molecular dynamics to be resolved on the femtosecond time scale. Where...
Abstract. Fluctuating pulse durations considerably influence the time resolution of probing experime...
Fluctuating pulse durations considerably influence the time resolution of probing experiments. The c...
Thesis (Ph. D.)--University of Rochester. Institute of Optics, 2004.Ultrafast optical pulses are use...
Emergent properties of solids, such as long range order or quasiparticle states, often become manife...
An atomic-level picture of molecular and bulk processes, such as chemical bonding and charge transfe...
openIn order to reveal a signal arising from a nonlinear interaction, several spectroscopic techniqu...
In this work the importance of phases in time-resolved spectroscopy is investigated in two respects....
Imperfect knowledge of the times at which ‘snapshots’ of a system are recorded degrades our ability ...
Time-resolved measurements of quantum dynamics are based on the availability of controlled events th...
We show how light fields that vary statistically in time (e.g. at FELs) enable higher temporal resol...
We show that, in optical pump-probe experiments on bulk samples, the statistical distribution of the...
n time-resolved spectroscopy, it is a widespread belief that the temporal resolution is determined b...
In this work the importance of phases in time-resolved spectroscopy is investigated in two respects....
Spectroscopic measurements with increasingly higher time resolution are generally thought to require...
Ultrafast spectroscopy allows molecular dynamics to be resolved on the femtosecond time scale. Where...
Abstract. Fluctuating pulse durations considerably influence the time resolution of probing experime...
Fluctuating pulse durations considerably influence the time resolution of probing experiments. The c...
Thesis (Ph. D.)--University of Rochester. Institute of Optics, 2004.Ultrafast optical pulses are use...
Emergent properties of solids, such as long range order or quasiparticle states, often become manife...
An atomic-level picture of molecular and bulk processes, such as chemical bonding and charge transfe...
openIn order to reveal a signal arising from a nonlinear interaction, several spectroscopic techniqu...
In this work the importance of phases in time-resolved spectroscopy is investigated in two respects....
Imperfect knowledge of the times at which ‘snapshots’ of a system are recorded degrades our ability ...