Publications (Bo Gao)


List of publications at ResearcherID

List of publications at Google Scholar

Preprints on arXiv (partial)


Publications (by subject) [no longer maintained (2018)]


Reactions and Inelastic Processes

  1. Bo Gao, "Quantum Langevin model for exoergic ion-molecule reactions and inelastic processes", Physical Review A, 83, 062712 (2011). PDF
  2. Bo Gao, "Universal model for exoergic bimolecular reactions and inelastic processes", Physical Review Letters, 105, 263203 (2010). PDF

Ion-Atom and Electron-Atom Interactions

  1. M. Li and B. Gao, "Proton-hydrogen collisions at low temperatures", Physical Review A 91, 032702 (2015). PDF
  2. M. Li, L. You, and B. Gao, "Multichannel quantum-defect theory for ion-atom interactions", Physical Review A 89, 052704 (2014). PDF
  3. B. Gao, "Quantum-defect theory for −1/r4-type interactions", Physical Review A 88, 022701 (2013). PDF
  4. M. Li and B. Gao, "Quantum-defect theory of resonant charge exchange", Physical Review A 86, 012707 (2012). PDF
  5. Bo Gao, "Universal Properties in Ultracold Ion-Atom Interactions", Physical Review Letters, 104, 213201 (2010). PDF (Supplement)

Atom-Atom Interaction and Long-Range Molecules

  1. C. Makride and B. Gao, "Multichannel quantum-defect theory for magnetic Feshbach resonances in heteronuclear group-I systems", Physical Review A 89, 062718 (2014). PDF
  2. H. Duan, L. You, and B. Gao, "Ultracold collisions in the presence of synthetic spin-orbit coupling", Physical Review A 87, 052708 (2013). PDF
  3. B. Gao, "Analytic description of atomic interaction at ultracold temperatures. II. Scattering around a magnetic Feshbach resonance", Physical Review A 84, 022706 (2011). PDF
  4. B. Gao, "Analytic description of atomic interaction at ultracold temperatures: the case of a single channel", Physical Review A 80, 012702 (2009). PDF
  5. B. Gao, "General form of the quantum-defect theory for −1/rα type of potentials with α>2", Physical Review A 78, 012702 (2008). PDF
  6. Yujun Chen and B. Gao, "Multiscale quantum-defect theory for two interacting atoms in a symmetric harmonic trap", Physical Review A 75, 053601 (2007). PDF
  7. B. Gao, E. Tiesinga, C. Williams, and P. Julienne, "Multichannel quantum-defect theory for slow atomic collisions", Physical Review A 72, 042719 (2005). PDF
  8. B. Gao, "Binding energy and scattering length for diatomic systems", Journal of Physics B: At. Mol. Opt. Phys., 37, 4273 (2004). PDF
  9. B. Gao, "Rotational structures of long-range diatomic molecules", European Physics Journal D 31, 283 (2004), Special issue on cold molecules. PDF
  10. B. Gao, "Angular-momentum-insensitive quantum-defect theory for diatomic systems", Physical Review A 64, 010701(R) (2001). PDF
  11. B. Gao, "Zero-energy bound or quasibound states and their implications for diatomic systems with an asymptotic van der Waals interaction", Physical Review A 62, 050702(R) (2000). PDF
  12. B. Gao, "Breakdown of Bohr's correspondence principle", Physical Review Letters, 83, 4225 (1999). PDF
  13. B. Gao, "Repulsive 1/r3 interaction", Physical Review A 59, 2778 (1999). PDF
  14. B. Gao, "Quantum defect theory of atomic collisions and molecular vibration spectra", Physical Review A 58, 4222 (1998). PDF
  15. B. Gao, "Solutions of Schrodinger equation for an attractive 1/r6 potential", Physical Review A 58, 1728 (1998). PDF
  16. B. Gao, "Theory of slow-atom collisions", Physical Review A 54, 2022-2039 (1996). PDF

Quantum Few-Atom and Quantum Many-Atom Systems

  1. I. Imran and B. Gao, "Bose atoms in a trap: A variational Monte Carlo formulation for the universal behavior at the van der Waals length scale", Physical Review A 73, 063619 (2006). PDF
  2. Bo Gao, "Zero temperature phases of many-atom Bose systems", Physical Review Letters, 95, 240403 (2005). PDF
  3. Bo Gao, "Universal properties of Bose systems with van der Waals interaction", Journal of Physics B: Atomic, Molecular and Optical Physics, 37, L227 (2004). PDF
  4. Bo Gao, "Effective potentials for atom-atom interactions at low temperatures", Journal of Physics B: Atomic, Molecular and Optical Physics, 36, 2111 (2003). PDF
  5. H. Fu, Y. Wang, B. Gao, "Beyond Fermi pseudopotential: a modified GP equation", Physical Review A 67, 053612 (2003).
  6. H. Fu, Y. H. Luo, M. Li, B. Gao, Y. Wang, "Control of the collapse of a bose condensate by optical dipole force", Chinese Physics Letters 20, 1430 (2003). PDF
  7. H. Fu, M. Li, B. Gao, Y. Wang, "The effect of an optical plug on the tunable collapse", Physics Letters A 308, 471 (2003). PDF
  8. H. Fu, M. Li, B. Gao, S. Zhou, Y. Wang, "Collapse of  85Rb Bose-Einstein condensate: Mean-field analysis of the time delay", Physics Letters A 305, 204 (2002). PDF

Quantum Optics

  1. B. Gao, "Effects of Zeeman degeneracy on the steady state properties of an atom interacting with a near-resonant laser field: Resonance fluorescence", Physical Review A 50, 4139 (1994). PDF
  2. B. Gao, "Effects of Zeeman degeneracy on the steady state properties of an atom interacting with a near-resonant laser field: Probe spectra", Physical Review A 49, 3391 (1994). PDF
  3. B. Gao, "Effects of Zeeman degeneracy on the steady state properties of an atom interacting with a near-resonant laser field: analytic results", Physical Review A 48, 2443 (1993). PDF
  4. M. Trippenbach, B. Gao, J. Cooper, and K. Burnett, "Slow collisions between identical atoms in a laser field: the spectrum of redistributed light", Physical Review A 45, 6555 (1992). PDF
  5. M. Trippenbach, B. Gao, J. Cooper, and K. Burnett, "Slow collisions between identical atoms in a laser field: application of the Born and Markov approximations to the system of moving atoms", Physical Review A 45, 6539 (1992). PDF

Multiphoton Processes

  1. F. Robicheaux and B. Gao, "Multichannel quantum-defect approach for two-photon processes", Physical Review A 47, 2904 (1993). PDF
  2. C.-R. Liu, B. Gao, A.F. Starace, "Variational stable treatment of two- and three-photon detachment of H- including electron correlation effects'', Physical Review A 46, 5985 (1992). PDF
  3. F. Robicheaux and B. Gao, "Two-photon processes in real atoms", Physical Review Letters 67, 3066 (1991). PDF
  4. B. Gao and A.F. Starace, "Laser-induced detachment processes in an electric field", Physical Review A 42, 5580 (1990). PDF
  5. B. Gao, "Multiphoton detachment in a static uniform magnetic field", Physical Review A 41, 5039 (1990). PDF
  6. C. Pan, B. Gao, and A.F. Starace, "Two-photon ionization of the Ar atom and detachment of the F- ion", Physical Review A 41, 6271 (1990). PDF
  7. B. Gao, C. Pan, C.-R. Liu, and A.F. Starace, "Variational methods for high-order multiphoton processes", Journal of the Optical Society of America B 7, 622 (1990). PDF
  8. B. Gao and A.F. Starace, "Variational principle for high order perturbations with application to multiphoton processes for the H atom", Physical Review A 39, 4550 (1989). PDF
  9. B. Gao and A.F. Starace, "Variational calculation of multiphoton ionization processes for the H atom", Physical Review Letters 61, 404 (1988). PDF
  10. B. Gao and A.F. Starace, "Numerical methods for free-free radiative transition matrix elements", Computers in Physics 1, 70 (1987). PDF

Collision Broadening of Spectral Line Shape

  1. B. McQuarrie, G. C. Tabisz, B. Gao, and J. Cooper, "Role of the induced dipole moment in the collisional interference in the pure rotational spectrum of HD-He and HD-Ar", Physical Review A 52, 1976 (1995). PDF
  2. B. Gao, J. Cooper, and G.C. Tabisz, "Rotational spectrum of HD perturbed by He or Ar gases: the effects of rotationally inelastic collisions on the interference between allowed and induced components", Physical Review A 46, 5781 (1992). PDF
  3. B. Gao, G.C. Tabisz, M. Trippenbach, and J. Cooper, "The spectral line shape arising from collisional interference between electric-dipole-allowed and collision-induced transitions", Physical Review A 44, 7379 (1991). PDF

Miscellaneous

  1. B. Gao, S. Langer, and P. M. Corry, "Applications of the time-dependent Green's function and Fourier transforms to the solution of the bioheat equation'', International Journal of Hyperthermia, 11, 267-285 (1995). PDF

Home | Research | Publications | Quantum Mechanics | Bio