- Schrodinger equation. Bohr D approach. Variational (HL) approach. Hybrid variational Bohr approach. PDF file
- Heitler London method for H2 molecule. Hybrid HL-B model. Alternative constraint. The model of Phys. Lett. A. PDF file
- Possible combinations of Heitler - London model with Bohr model. PDF file
- Re-examining the paper Model of molecular bonding based on the Bohr - Sommerfeld picture of atoms, Phys. Lett. A 355, 373 (2006). PDF file
- The method NNQWC (nearest-nucleus quantization without constraints). PDF file
- Nearest atom quantization for H2. Analytic continuation. PDF file
- Heitler - London model with Gaussian orbitals. PDF file
- Using orthogonal configuration (Hartree - Fock like). PDF file
- Bohr model for isoelectronic ions. PDF file
- Calculations of maxima of probability distributions from expectation values. Angular distribution. PDF file
- Bohr orbits in space of many dimensions. Two electrons in four-dimensional space. PDF file
- Bohr model for many-electron atoms. Energy and electron density at large Z. Comparison with Thomas - Fermi. PDF file
- Alternative constraint for H2 molecule. Bohr-like method for H2 with H2+ -inspired constraints. PDF file
- Hybrids of Heitler - London model with Bohr model for three-electron molecules. PDF file
- Bohr model for many-electron atoms, many-dimensional space (tables). PDF file
- Bohr model for many-electron cations, many-dimensional space (tables). PDF file
- Bohr model for many-electron atoms in many dimensions. PDF file
- Bohr model in variable dimensionality. Neon atom (tables), all atoms up to Na (11 electrons), all atoms up to 13 electrons
- Using one electron two center Coulomb solutions together with Bohr-like methods. Calculations for LiH molecule and its cation. PDF file
- Superradiance from N atoms inside a sphere. Testing formulas for decay rates. PDF file, PowerPoint
- Calculation of electric field around a conducting cone illuminated by a plane wave. PDF file
- Heitler - London model with fixed exponent orbitals and two-electron interaction from Bohr model. PDF file, PowerPoint
- Using orthogonality to take into account Pauli exclusion principle. PDF file
- Using one electron two center Coulomb solutions together with Bohr-like methods. PDF file
- Generalizations of Bohr model for diatomic and polyatomic molecules (review of results). PDF file
- Generalizations of Bohr model and the method of dimensional scaling for diatomic and polyatomic molecules (review of two recent papers). PDF file
- Many-electron atoms in the limit of large dimensionality (review of J. Loeser's papers). PDF file
- Excited states in the limit of large dimensionality (review of a paper of D. Goodson and D. Watson). PDF file
- States with non-zero angular momentum in the limit of large dimensionality (review of D. Watson's papers). PDF file

- Dimensional scaling of helium and frozen planetary states as resonances associated with complex stationary points of the effective potential. Seminar in Princeton in 2006. PDF file
- Perturbation parameters, analytical continuation and singularity structure of the energy function: applications in atomic, molecular and nuclear physics. Seminar in TAMU in Feb. 2007. PDF file, animation
- Bohr, scaling and more (stable circular orbits for helium atom). Seminar in Princeton in Apr. 2007. PDF file
- Bohr, scaling and molecular physics. Workshop in Casper in Aug. 2007. PDF file
- Partial wave expansion of the plane wave. PowerPoint file (52 MB). Method of partial waves. PowerPoint file (33 MB). For D. Herschabach's molecular course 11/18/2008.

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