ATOMIC and MOLECULAR PHYSICS

test items (plan)

PHYSICS MSc – 2021 autumn semester

 

1) Introduction: Rydberg-constant, separating the center of mass motion in the two-body problem, atomic units, virial theorem, the role of E_kin and E_pot in the formation of a chemical bond on the example of the H₂⁺ molecular ion

 

2) Principles 1: the necessity of approximations, perturbational vs. variational methods, the variation principle , Eckart’s inequality , nonlinear variation (two examples: H-exp, H-gauss),

 

3) Principles 2: linear variation, Löwdin’s orthogonalization !!! home work for October 15 !!! , Born--Oppenheimer approximation, Hellmann--Feynman theorem ,

 

4) He atom 1: ground state, shielding (screening), Cb-integral, comparison of various approximations: perturbation, variation (!!! home work for October 22: what is the erratum in it? !!!);

shielding-table, H-like orbitals, STO-s,

Hartree-Fock method for the ground state of He, Hylleraas-solution, Pekeris-solution, ( Pekeris-paper ), various types of correlation

 

5) He atom 2: excited states, exchange integral (a paper for K>0 ), ortho-He, para-He, two-electron Slater determinants, Slater determinants, Fermi-hole vs Coulomb-hole, Hartree-Fock method in general (briefly)

 

6) Dirac-equation: Application of the Dirac-equation for H atom, the spin in electric and/or magnetic field, the spin-orbit coupling     (Dirac)     (hyperfine)

 

7) Hund’s rules: atomic term symbols, LS-coupling, jj-coupling, the role of configurational interaction on the example of Mg atom, periodic system, Grotrian diagram     ( Hund    ,     LS vs jj )

 

8) H₂⁺ molecular ion: description with various approximate (and exact ) methods, molecular orbitals, LCAO method     ( H₂⁺_ion_a    ,     H₂⁺_ion_b )

 

9) H₂ molecule:  description with various approximate methods, comparison of the MO and VB methods     ( H₂: MO vs VB , with the home work! )

 

10) Diatomic molecules: correlation diagram, avoided crossing, N₂ and O₂ molecule, paramagnetism of the latter     ( N₂ , O₂ (!) )

 

11) Polyatomic molecules 1: energy levels and vibrational modes of H₂O molecule, hybridisation

 

12) Polyatomic molecules 2: the role of symmetries, the use of character tables (NH₃, CH₄, C₆₀) 

 

 

Budapest, 2021-12-10                                                 Kürti Jenő

 

Recommended literature:

- P. Atkins, R. Friedman: Molecular Quantum Mechanics, Oxford University Press 2010

- I. Mayer: Simple Theorems, Proofs, and Derivations in Quantum Chemistry, Springer Science+Business Media New York 2003

- H. Haken, H.C. Wolf: Molecular Physics and Elements of Quantum Chemistry, Springer-Verlag Berlin Heidelberg 1987

- H. Haken, H.C. Wolf: Molekülphysik und Quantenchemie, Springer-Verlag Berlin Heidelberg 1995

- The Feynman Lectures in Physics: http://www.feynmanlectures.info/

 

- Kapuy Ede, Török Ferenc, Az atomok és molekulák kvantumelmélete

- Marx György: Kvantummechanika

- Erostyák János -- Kürti Jenő -- Raics Péter -- Sükösd Csaba: Fizika III. egyetemi tankönyv megfelelő fejezetei 

 

Lectures from last year (2020): (TEAMS online videos !)