Single ionization in molecules is a critical first step in many higher order process, however it remains poorly understood even in simple diatomic systems. Velocity map imaging of ion fragments produced from dissociation after single ionization provide access to the kinetic energy released (KER) during dissociation. In this thesis, I will present two experimental studies of the single ionization of diatomic iodine. In a long wavelength scan spanning 400-800 nm the single ionization of I2 is found to have a contribution from deeply bound 5s electrons. In the I + I+ dissociation channel, much of the measured KER is inconsistent with ionization from the X, A, and B states of I2+ implying ionization from deeper orbitals. A pump-probe Fourier tr...
Molecular dynamics is of fundamental interest in natural science research. The capability of investi...
The electronic configurations of molecular states of iodine are studied through the Optical- Optica...
Author Institution: Department of Chemsitry, University of Pennsylvania, Philadelphia, PA 19104-6323...
Single ionization in molecules is a critical first step in many higher order process, however it rem...
Strong field ionization with ultrafast laser pulses allows for real-time measurements of the forming...
Exposing molecules to strong laser fields produces a variety of effects, which has led to considerab...
Multiphoton ionization of iodine-bearing molecules has been studied, under collision-free conditions...
We observe the kinetic energy of ionic fragments that result from the Coulomb explosion of molecular...
We studied the nuclear dynamics in diatomic molecules (N[subscript 2], O[subscript 2], and CO) follo...
Laser photodissociation spectroscopy of the I‐·guanine complex has been conducted for the first time...
Single ionization of simple molecules, e.g. H2, CO2, by fast charged particle impact has been studie...
The ionization and fragmentation dynamics of iodine molecules (I-2) are traced using very intense (s...
Niederjohann B. Photochemistry of small molecules. Bielefeld (Germany): Bielefeld University; 2004.T...
Master of ScienceDepartment of PhysicsCarlos TralleroOver the past four decades, the single-electron...
Double ionization has been well studied in atoms and diatomic molecules. However, polyatomic molecul...
Molecular dynamics is of fundamental interest in natural science research. The capability of investi...
The electronic configurations of molecular states of iodine are studied through the Optical- Optica...
Author Institution: Department of Chemsitry, University of Pennsylvania, Philadelphia, PA 19104-6323...
Single ionization in molecules is a critical first step in many higher order process, however it rem...
Strong field ionization with ultrafast laser pulses allows for real-time measurements of the forming...
Exposing molecules to strong laser fields produces a variety of effects, which has led to considerab...
Multiphoton ionization of iodine-bearing molecules has been studied, under collision-free conditions...
We observe the kinetic energy of ionic fragments that result from the Coulomb explosion of molecular...
We studied the nuclear dynamics in diatomic molecules (N[subscript 2], O[subscript 2], and CO) follo...
Laser photodissociation spectroscopy of the I‐·guanine complex has been conducted for the first time...
Single ionization of simple molecules, e.g. H2, CO2, by fast charged particle impact has been studie...
The ionization and fragmentation dynamics of iodine molecules (I-2) are traced using very intense (s...
Niederjohann B. Photochemistry of small molecules. Bielefeld (Germany): Bielefeld University; 2004.T...
Master of ScienceDepartment of PhysicsCarlos TralleroOver the past four decades, the single-electron...
Double ionization has been well studied in atoms and diatomic molecules. However, polyatomic molecul...
Molecular dynamics is of fundamental interest in natural science research. The capability of investi...
The electronic configurations of molecular states of iodine are studied through the Optical- Optica...
Author Institution: Department of Chemsitry, University of Pennsylvania, Philadelphia, PA 19104-6323...
Add to ORKG