Add to ORKGUnder the supervision of Assistant Professor Scott T. Sanders, Pages: 95A new spatially resolved optical technique to measure temperature was developed using two-photon absorption of xenon. This experiment excited the 256 nm two-photon transition of xenon by focusing the excitation source into a test cell at room temperature. Two-photon absorption only occurs at the focus of a laser beam; therefore a point measurement technique was possible. The spatial resolution for this experiment was approximately 0.6 mm; however, this technique enables higher resolution depending on the focus of the laser beam. Two-photon absorbance versus xenon number density was determined experimentally and used to validate a theoretical model crea...
International audienceWith the advent of new x-ray light-sources worldwide, the creation of dense, u...
We report on quantitative, spatially resolved density, temperature, and velocity measurements on gro...
We report on a new measurement of the energy resolution that can be attained in liquid xenon when re...
International audienceThe two-photon excitation cross-section is a key parameter for the two-photon ...
International audienceTwo-photon absorption laser-induced fluorescence (TALIF) is a technique common...
The attenuation length and refractive index of liquid xenon for its intrinsic scintillation light ([...
A rapid, straightforward method for measuring the two-photon absorption cross sections in liquid sam...
In this work the spatial measurement of ultrashort light pulses through two photon absorption (TPA) ...
Author Institution:For centrosymmetric molecules, two-photon selection rules provide for the direct ...
We describe here a simple photothermal detection scheme in a flow stream based on the temperature di...
Modern atom probes typically incorporate an ultrafast pulsed-laser source with wavelength ranging fr...
Synchrotron radiation has been used for the first time in two-photon spectroscopy. The experimental ...
An electronic timing system was developed so that a commercial Nd:YAG regenerative amplifier could b...
Application of two laser wavelengths passing through plasma measures electron density and temperatur...
International audienceWith the advent of new x-ray light-sources worldwide, the creation of dense, u...
We report on quantitative, spatially resolved density, temperature, and velocity measurements on gro...
We report on a new measurement of the energy resolution that can be attained in liquid xenon when re...
International audienceThe two-photon excitation cross-section is a key parameter for the two-photon ...
International audienceTwo-photon absorption laser-induced fluorescence (TALIF) is a technique common...
The attenuation length and refractive index of liquid xenon for its intrinsic scintillation light ([...
A rapid, straightforward method for measuring the two-photon absorption cross sections in liquid sam...
In this work the spatial measurement of ultrashort light pulses through two photon absorption (TPA) ...
Author Institution:For centrosymmetric molecules, two-photon selection rules provide for the direct ...
We describe here a simple photothermal detection scheme in a flow stream based on the temperature di...
Modern atom probes typically incorporate an ultrafast pulsed-laser source with wavelength ranging fr...
Synchrotron radiation has been used for the first time in two-photon spectroscopy. The experimental ...
An electronic timing system was developed so that a commercial Nd:YAG regenerative amplifier could b...
Application of two laser wavelengths passing through plasma measures electron density and temperatur...
International audienceWith the advent of new x-ray light-sources worldwide, the creation of dense, u...
We report on quantitative, spatially resolved density, temperature, and velocity measurements on gro...
We report on a new measurement of the energy resolution that can be attained in liquid xenon when re...