Ultra-fast transitions buried within long recovery times are difficult to measure and study directly. As an example, consider the spectroscopic measurement of a non-radiative upper level transition of a laser material possessing a long fluorescence time. The slow time constant of the overall relaxation process requires a pump with a low repetition rate. The speed of the transition in question requires an ultra-fast probe. It is difficult to obtain synchronous multi-wavelength pulses that satisfy both femtosecond duration and kilohertz repetition rates. We circumvent these issues by cavity dumping a femtosecond optical parametric oscillator. The signal is accessed at the appropriate rate to act as the pump, and the use of quasi-phase...
Two different time-resolved spectroscopic techniques are discussed theoretically and demonstrated ex...
This dissertation reports a series of experiments directed towards nonlinear material characterizati...
Frequency-resolved optical gating (FROG) is a technique to characterize an ultra-short laser pulse. ...
This thesis set out to continue the development of a short-wave infrared (SWIR) optical parametric a...
Optical phenomenon in semiconductors and other light-sensitive materials typically happen at very sh...
This dissertation describes the development of a high-repetition-rate broadly-tunable ultrafast lase...
Understanding dynamics on ultrafast timescales enables unique and new insights into important proces...
DoctorObservation of reactions in real time enables us directly to access the information on the rea...
Two important frontiers in the field of ultrashort pulse measurement are the complete temporal measu...
We present a set of experiments that introduce students to ultrafast science. We discuss the relatio...
Understanding dynamics on ultrafast timescales enables unique and new insights into important proce...
Standard optical pump-probe techniques allow to study a temporal response of a system to a laser pul...
A monolithic two-section quantum dot semiconductor laser is differentially pumped to form non-unifor...
In the past several decades the technology for the creation and use of ultrashort pulses has progres...
It is intuitive that with new tools to analyze nature, new domains can be explored. Ultrafast electr...
Two different time-resolved spectroscopic techniques are discussed theoretically and demonstrated ex...
This dissertation reports a series of experiments directed towards nonlinear material characterizati...
Frequency-resolved optical gating (FROG) is a technique to characterize an ultra-short laser pulse. ...
This thesis set out to continue the development of a short-wave infrared (SWIR) optical parametric a...
Optical phenomenon in semiconductors and other light-sensitive materials typically happen at very sh...
This dissertation describes the development of a high-repetition-rate broadly-tunable ultrafast lase...
Understanding dynamics on ultrafast timescales enables unique and new insights into important proces...
DoctorObservation of reactions in real time enables us directly to access the information on the rea...
Two important frontiers in the field of ultrashort pulse measurement are the complete temporal measu...
We present a set of experiments that introduce students to ultrafast science. We discuss the relatio...
Understanding dynamics on ultrafast timescales enables unique and new insights into important proce...
Standard optical pump-probe techniques allow to study a temporal response of a system to a laser pul...
A monolithic two-section quantum dot semiconductor laser is differentially pumped to form non-unifor...
In the past several decades the technology for the creation and use of ultrashort pulses has progres...
It is intuitive that with new tools to analyze nature, new domains can be explored. Ultrafast electr...
Two different time-resolved spectroscopic techniques are discussed theoretically and demonstrated ex...
This dissertation reports a series of experiments directed towards nonlinear material characterizati...
Frequency-resolved optical gating (FROG) is a technique to characterize an ultra-short laser pulse. ...