Coulomb-explosion imaging of concurrent ${\mathbf{CH}}_{2}\mathbf{BrI}$ photodissociation dynamics

The dynamics following laser-induced molecular photodissociation of gas-phase CH2BrI at 271.6 nm were investigated by time-resolved Coulomb-explosion imaging using intense near-IR femtosecond laser pulses. The observed delay-dependent photofragment momenta reveal that CH2BrI undergoes C-I cleavage, depositing 65.6% of the available energy into internal product states, and that absorption of a second UV photon breaks the C-Br bond of CH2Br. Simulations confirm that this mechanism is consistent with previous data recorded at 248 nm, demonstrating the sensitivity of Coulomb-explosion imaging as a real-time probe of chemical dynamics.

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Citation: Burt, M., Boll, R., Lee, J. W. L., Amini, K., Köckert, H., Vallance, C., … Rolles, D. (2017). Coulomb-explosion imaging of concurrent ${\mathbf{CH}}_{2}\mathbf{BrI}$ photodissociation dynamics. Physical Review A, 96(4), 043415. https://doi.org/10.1103/PhysRevA.96.043415