Initial rotational distributions using a laser pump-and-probe technique

The newly-developed laser "pump-and-probe" method has been utrlized to determme the initial rotation&state distributlon of a dlatomlc product of a chemxal reaction. Cd('Pt) + Hz -c CdH (u = 0, IV) f H. The distnbution closely approuimares a Boltzmann dlstnbutlon uxth Teff i= 5000 K.

A new laser technique is described for the determination of statejesokxi product distriiutions at relatively high total pressures (==I torr). An active species is usted by one laser pulse, and products of its destruction are detected by laser-induced fluorescence within 520 ns. For the E-to-V proces

We have experimentally investigated alignment depolarization cross section of the excited J ¼ 3=2 133 Cs atoms, by collisions with ground level krypton atoms, from a two-photon two-color linear polarization spectra. To measure the linear polarization degree of the 6s 2 S 1=2 ! 6p 2 P 3=2 ! 10s 2 S 1

A Iwo-colour pump and probe technique based upon a single @switched Nd/YAG laser combined with harmonic generation and Raman shifting is used to populate the short-lived (-c 8 ns) metal-l&and charge-transfer excited state of Cu'(2,2'biquinoline); and to probe the resonantly enhanced Raman scattering

A new technique has been developed which allows the direct measurement of frequencies of ions trapped in a quadrupole ion trap mass spectrometer. This pump/probe method employs a fast direct current (DC) pulse (pump) to displace a kinetically cooled ion population from the center of the trap, and a