Quantitative Comparison of H$_2^+$ Laser-Induced Dissociation in an Intense Ultrashort Pulse

J.V. Hern\&#039;andez; Fatima Anis; A.M. Sayler; J. McKenna; B. Gaire; M. Zohrabi; N.G. Johnson; K.D. Carnes; B.D. Esry; Ben Berry

Quantitative Comparison of H$_2^+$ Laser-Induced Dissociation in an Intense Ultrashort Pulse

POSTER

Abstract

We present a quantitative comparison between experimental measurements and theoretical calculations for laser-induced dissociation of H$_2^+$ in an intense ultrashort pulse. The 3D momentum distribution was measured for the dissociating fragments of an H$_2^+$ beam that has been exposed to a 10~fs, 790~nm pulse at intensities of 10$^{12}$ and 10$^{13}$~W/cm$^2$. We have solved the TDSE within the Born-Oppenheimer representation, including all degrees of freedom, but ionization. In order to produce a theoretical momentum distribution that can be directly compared to experimental measurements, the observables are averaged over the initial vibrational and thermal distributions as well as the intensity distribution of the laser within the focus. The experimental resolution in both energy and angle are also incorporated, which can finally be fit to the experimental data taking the effective source temperature to be a free parameter. Whether this parameter alone is sufficient to produce agreement will be discussed.

Authors

J.V. Hern\'andez

J. R. Macdonald Laboratory, Kansas State University
Fatima Anis

J. R. Macdonald Laboratory, Dept. of Physics, Kansas State University, J. R. Macdonald Laboratory, Kansas State University, J.R. Macdonald Laboratory, Department of Physics, Kansas State University
A.M. Sayler

J. R. Macdonald Laboratory, Kansas State University
J. McKenna

J. R. Macdonald Laboratory, Kansas State University, J.R. Macdonald Laboratory, Department of Physics, Kansas State University
B. Gaire

J.R. Macdonald Laboratory, Physics Department, Kansas State University, J. R. Macdonald Laboratory, Kansas State University, J.R. Macdonald Laboratory, Department of Physics, Kansas State University
M. Zohrabi

J.R. Macdonald Laboratory, Physics Department, Kansas State University, J. R. Macdonald Laboratory, Kansas State University, J.R. Macdonald Laboratory, Department of Physics, Kansas State University
N.G. Johnson

J. R. Macdonald Laboratory, Kansas State University
K.D. Carnes

J.R. Macdonald Laboratory, Department of Physics, Kansas State University, J. R. Macdonald Laboratory, Kansas State University
B.D. Esry

Department of Physics, Kansas State University, Department of Physics, Kansas State Uiversity, J. R. Macdonald Laboratory, Dept. of Physics, Kansas State University, J. R. Macdonald Laboratory, Kansas State University, J.R. Macdonald Laboratory, Department of Physics, Kansas State University, Kansas State University, J.R.Macdonald Laboratory, Department of Physics, Kansas State University
Ben Berry

J. R. Macdonald Laboratory, Kansas State University, J.R. Macdonald Laboratory, Department of Physics, Kansas State University