:: print this page  

  Prof. Shih-I Chu
Home Biography Group Research Publications
Vol. I. General Topics
  1. Atomic and Molecular Resonances: New Developments in Complex Scaling Methods and Their Applications

C1. New Developments and Review Articles in Complex Scaling Methods

  1. K. K. Datta and S. I. Chu, Complex scaling method for numerical potentials, Chem. Phys. Lett. 87, 357–364 (1982) [bib][BibTeX] [link][link] [pdf][pdf]
  2. S. I. Chu, Complex-coordinate coupled-channel methods for predissociating resonances in van der Waals molecules in Resonances in Electron-Molecule Scattering Van Der Waals Complexes and Reactive Chemical Dynamics, edited by D. G. Truhlar (American Chemical Society, Washington, D.C., 1984), no. 263 in ACS Symposium Series, pp. 263–288 [bib][BibTeX]
  3. S. I. Chu, The complex scaling method: Application to autoionization, predissociation, and multiphoton resonances, Int. J. Quantum Chem. / Quantum Chem. Symp. 20, 129–146 (1986) [bib][BibTeX] [pdf][pdf]
  4. S. I. Chu, The complex-scaling Fourier-grid Hamiltonian method for resonance state problems, Chem. Phys. Lett. 167, 155–157 (1990) [bib][BibTeX] [link][link] [pdf][pdf]
  5. S. I. Chu, The complex-scaling coupled-channel methods for atomic and molecular resonances in intense external fields in Applied Many-Body Methods in Spectroscopy and Electronic Structure, edited by D. Mukherjee (Plenum Press, New York, 1992), pp. 193–212 [bib][BibTeX]
  6. G. H. Yao and S. I. Chu, Generalized pseudospectral methods with mappings for bound and resonance state problems, Chem. Phys. Lett. 204, 381–388 (1993) [bib][BibTeX] [link][link] [pdf][pdf]

C2. Atomic and Molecular Quasienergy Resonances in Intense Laser Fields

  1. S. I. Chu and W. P. Reinhardt, Intense field multiphoton ionization via complex dressed states: Application to the H atom, Phys. Rev. Lett. 39, 1195–1198 (1977) [bib][BibTeX] [link][link] [pdf][pdf]
  2. S. I. Chu, Quasienergy formalism for intense field multiphoton ionization of atoms induced by circularly polarized radiation, Chem. Phys. Lett. 54, 367–372 (1978) [bib][BibTeX] [link][link] [pdf][pdf]
  3. S. I. Chu, Dilatation transformation and the Stark–Zeeman effect, Chem. Phys. Lett. 58, 462–466 (1978) [bib][BibTeX] [link][link] [pdf][pdf]
  4. S. I. Chu, Floquet theory and complex quasi-vibrational energy formalism for intense field molecular photodissociation, J. Chem. Phys. 75, 2215–2221 (1981) [bib][BibTeX] [link][link] [pdf][pdf]
  5. S. K. Bhattacharya and S. I. Chu, Study of the autoionising states of the hydrogen atom in intense magnetic fields by the complex coordinate coupled-channel formalism, J. Phys. B: At. Mol. Phys. 16, L471–L477 (1983) [bib][BibTeX] [link][link] [pdf][pdf]
  6. 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) [bib][BibTeX] [link][link] [pdf][pdf]
  7. G. H. Yao and S. I. Chu, Complex-scaling Fourier-grid Hamiltonian method. III. Oscillatory behavior of complex quasienergies and the stability of negative ions in very intense laser fields, Phys. Rev. A 45, 6735–6743 (1992) [bib][BibTeX] [link][link] [pdf][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) [bib][BibTeX] [link][link] [pdf][pdf]
  9. X. Chu and S. I. Chu, Complex-scaling generalized pseudospectral method for quasienergy resonance states in two-center systems: Application to the Floquet study of charge resonance enhanced multiphoton ionization of molecular ions in intense low-frequency laser fields, Phys. Rev. A 63, 013414 (2001) [bib][BibTeX] [link][link] [pdf][pdf]

C3. Predissociation Dynamics of Van Der Waals Molecules

  1. S. I. Chu, Studies of rotational predissociation of van der Waals molecule by the method of complex coordinate, J. Chem. Phys. 72, 4772–4776 (1980) [bib][BibTeX] [link][link] [pdf][pdf]
  2. S. I. Chu and K. K. Datta, Studies of multichannel rotational predissociation of Ar–H2 van der Waals molecule by the complex-coordinate coupled-channel formalism, J. Chem. Phys. 76, 5307–5320 (1982) [bib][BibTeX] [link][link] [pdf][pdf]
  3. S. I. Chu, Body-fixed complex-coordinate coupled-channel formalism for rotational predissociation of van der Waals molecules, Chem. Phys. Lett. 88, 213–219 (1982) [bib][BibTeX] [link][link] [pdf][pdf]
  4. K. K. Datta and S. I. Chu, Rotational predissociation of Ar–HD van der Waals complex: space-fixed complex-coordinate coupled-channel calculations, Chem. Phys. Lett. 95, 38–45 (1983) [bib][BibTeX] [link][link] [pdf][pdf]
  5. S. I. Chu, Complex-coordinate coupled-channel methods for predissociating resonances in van der Waals molecules in Resonances in Electron-Molecule Scattering Van Der Waals Complexes and Reactive Chemical Dynamics, edited by D. G. Truhlar (American Chemical Society, Washington, D.C., 1984), no. 263 in ACS Symposium Series, pp. 263–288 [bib][BibTeX]
  6. S. I. Chu, The complex scaling method: Application to autoionization, predissociation, and multiphoton resonances, Int. J. Quantum Chem. / Quantum Chem. Symp. 20, 129–146 (1986) [bib][BibTeX] [pdf][pdf]

o Return to the Publications page
[jayhawk] Dept. of Chemistry
The University of Kansas