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  Prof. Shih-I Chu

3. Multiphoton Excitation and Dissociation of Molecules: Complex Vibrational Quasi-Energy Formalisms

1. S. I. Chu, Floquet theory and complex quasi-vibrational energy formalism for intense field molecular photodissociation, J. Chem. Phys. 75, 2215–2221 (1981) [BibTeX] [link] [pdf]
2. S. I. Chu, J. V. Tietz, and K. K. Datta, Quantum dynamics of molecular multiphoton excitation in intense laser and static electric fields: Floquet theory, quasienergy spectra, and application to the HF molecule, J. Chem. Phys. 77, 2968–2978 (1982) [BibTeX] [link] [pdf]
3. S. I. Chu, C. Laughlin, and K. K. Datta, Two-photon dissociation of vibrationally excited H₂⁺. Complex quasi-vibrational energy and inhomogeneous differential equation approaches, Chem. Phys. Lett. 98, 476–481 (1983) [BibTeX] [link] [pdf]
4. S. I. Chu, T. S. Ho, and J. V. Tietz, Non-adiabatic approximation for resonant multiphoton excitation of vibrational–rotational states in strong laser fields, Chem. Phys. Lett. 99, 422–426 (1983) [BibTeX] [link] [pdf]
5. T. S. Ho and S. I. Chu, Nonadiabatic approach for resonant molecular multiphoton absorption processes in intense infrared laser fields, J. Chem. Phys. 79, 4708–4718 (1983) [BibTeX] [link] [pdf]
6. C. Laughlin, K. K. Datta, and S. I. Chu, Two-photon dissociation of vibrationally excited HD⁺: The inhomogeneous differential equation approach, J. Chem. Phys. 85, 1403–1411 (1986) [BibTeX] [link] [pdf]
7. S. I. Chu, Complex quasivibrational energy formalism for intense-field multiphoton and above-threshold dissociation: Complex-scaling Fourier-grid Hamiltonian method, J. Chem. Phys. 94, 7901–7909 (1991) [BibTeX] [link] [pdf]
8. D. A. Telnov and S. I. Chu, Theoretical study of the energy spectra of multiphoton above-threshold dissociation of H₂⁺ in intense laser fields, Chem. Phys. Lett. 255, 223–231 (1996) [BibTeX] [link] [pdf]

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