Your search keyword '"Hayden, Carl C."' showing total 4 results

1. Time-Resolved Molecular Frame Dynamics of Fixed-in-Space CS₂ Molecules

Author

Bisgaard, Christer Z., Clarkin, Owen J., Wu, Guorong, Lee, Anthony M. D., Geßner, Oliver, Hayden, Carl C., and Stolow, Albert

Published

2009

2. Femtosecond time-resolved studies of coherent vibrational Raman scattering in large gas-phase molecules.

Author

Hayden, Carl C. and Chandler, David W.

Subjects

*BENZENE, *POLARIZABILITY (Electricity), *RAMAN effect, *MOLECULES, *ANISOTROPY

Abstract

Results are presented from femtosecond time-resolved coherent Raman experiments in which we excite and monitor vibrational coherence in gas-phase samples of benzene and 1,3,5-hexatriene. Different physical mechanisms for coherence decay are seen in these two molecules. In benzene, where the Raman polarizability is largely isotropic, the Q branch of the vibrational Raman spectrum is the primary feature excited. Molecules in different rotational states have different Q-branch transition frequencies due to vibration–rotation interaction. Thus, the macroscopic polarization that is observed in these experiments decays because it has many frequency components from molecules in different rotational states, and these frequency components go out of phase with each other. In 1,3,5-hexatriene, the Raman excitation produces molecules in a coherent superposition of rotational states, through (O, P, R, and S branch) transitions that are strong due to the large anisotropy of the Raman polarizability. The coherent superposition of rotational states corresponds to initially spatially oriented, vibrationally excited, molecules that are freely rotating. The rotation of molecules away from the initial orientation is primarily responsible for the coherence decay in this case. These experiments produce large (∼10% efficiency) Raman shifted signals with modest excitation pulse energies (10 μJ) demonstrating the feasibility of this approach for a variety of gas phase studies. © 1995 American Institute of Physics. [ABSTRACT FROM AUTHOR]

Published

1995

3. A two-color laser-induced grating technique for gas-phase excited-state spectroscopy.

Author

Buntine, Mark A., Chandler, David W., and Hayden, Carl C.

Subjects

SPECTRUM analysis, MOLECULES, COLLISIONS (Nuclear physics)

Abstract

A new excited-state spectroscopic method is reported.It is a two-color laser-induced grating tecnique for detecting optical transitions of rovibronically excited molecules in the gas phase. (AIP) [ABSTRACT FROM AUTHOR]

Published

1992

4. The multiplexed chemical kinetic photoionization mass spectrometer: A new approach to isomer-resolved chemical kinetics.

Author

Osborn, David L., Zou, Peng, Johnsen, Howard, Hayden, Carl C., Taatjes, Craig A., Knyazev, Vadim D., North, Simon W., Peterka, Darcy S., Ahmed, Musahid, and Leone, Stephen R.

Subjects

PHOTOIONIZATION, MASS spectrometers, CHEMICAL kinetics, CHEMICAL reactions, MOLECULES, SYNCHROTRON radiation, REACTION mechanisms (Chemistry)

Abstract

We have developed a multiplexed time- and photon-energy–resolved photoionization mass spectrometer for the study of the kinetics and isomeric product branching of gas phase, neutral chemical reactions. The instrument utilizes a side-sampled flow tube reactor, continuously tunable synchrotron radiation for photoionization, a multimass double-focusing mass spectrometer with 100% duty cycle, and a time- and position-sensitive detector for single ion counting. This approach enables multiplexed, universal detection of molecules with high sensitivity and selectivity. In addition to measurement of rate coefficients as a function of temperature and pressure, different structural isomers can be distinguished based on their photoionization efficiency curves, providing a more detailed probe of reaction mechanisms. The multiplexed three-dimensional data structure (intensity as a function of molecular mass, reaction time, and photoionization energy) provides insights that might not be available in serial acquisition, as well as additional constraints on data interpretation. [ABSTRACT FROM AUTHOR]

Published

2008