0 
General information 
1 
Matrices are useful in spectroscopic theory 
1 (S) 
Spectroscopic notation, good quantum numbers, perturbation theory and secular equations, nonorthonormal basis sets, transformation of matrix elements of any operator into perturbed basis set 
2 
Coupled harmonic oscillators: Truncation of an infinite matrix 
2 (S) 
Matrix solution of harmonic oscillator problem, derivation of heisenberg equation of motion, matrix elements of any function of X and P 
3 
Coupled harmonic oscillators (part II) and atoms 
3 (S) 
Anharmonic oscillator, vibrationrotation interaction, energy levels of a vibrating rotor 
4 
How do we get information about V(Q) from molecular constants? 
4 (S) 
Construction of potential curves by the rydbergkleinrees method 
5 
Atoms: 1e and alkali 
6 
Alkali and many e atomic spectra 
7 
Many e atoms 
8 
How to assign an atomic spectrum 
9 
The BornOppenheimer approximation 
9 (S) 
Excerpts from the spectra and dynamics of diatomic molecules 
10 
The BornOppenheimer approach to transitions 
11 
Transitions II 
11 (S) 
Magnetic and electric effects, related papers 
12 
Pictures of spectra and notation 
13 
Rotational assignment of diatomic electronic spectra I 
13 (S) 
Drexium monoxide 
14 
Laser schemes for rotational assignment first lines for ?', ?" assignments 
15 
Definition of angular momenta and  A α M_{A} >Evaluation of

15 (S) 
Rotation and angular momenta 
16 
^{2}∏ and ^{2}∑ Matrices 
17 
Parity and e/f basis for ^{2}∏, ^{2}∑^{±} 
18 
Hund's cases: ^{2}∏, ^{2}∑^{±} Examples 
18 (S) 
Energy level structure of ^{2}∏ and ^{2}∑ states, matrix elements for ^{2}∏ and ^{2}∑ including ∏ ~ ∑ perturbation, parity 
19 
Perturbations 
19 (S) 
A model for the perturbations and fine structure of the ∏ states of CO, factorization of perturbation parameters, the electronic perturbation parameters 
20 
Secondorder effects 
20 (S) 
Secondorder effects: Centrifugal distortion and Λdoubling 
21 
Rotation of polyatomic molecules I 
21 (S) 
Coefficients for energy levels of a slightly asymmetric top, energy levels of a rigid rotor, transition strengths for rotational transitions 
22 
Asymmetric top 
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Pure rotation spectra of polyatomic molecules 
23 (S) 
Energy levels of a rigid rotor, energy levels of an asymmetric rotor 
24 
Polyatomic vibrations: Normal mode calculations 
25 
Polyatomic vibrations II: sVectors, Gmatrix, and Eckart condition 
26 
Polyatomic vibrations III: svectors and H_{2}O 
27 
Polyatomic vibrations IV: Symmetry 
28 
Normal↔local modes, Highovertone spectra 
28 (S) 
Summaries of articles by K. Lehmann, B. C. Smith, J. S. Winn, K. Lehmann, W. Klemperer, and M. S. Child and R. T. Lawton 
29 
A Sprint through group theory 
30 
What is in a character table and how do we use it? 
30 (S) 
Symmetry operations 
31 
Electronic spectra of polyatomic molecules 
31 (S) 
Excerpts of articles by K. Keith Innes, G. W. King, C. K. Ingold, M. Bogey, H. Bolvin, C. Demuynck, and J. L. Destombes 
32 
The transition 
33 
Vibronic coupling 
34 
Wavepacket dynamics 
34 (S) 
Abstract of article by M. Bixon and J. Jortner 
35 
Finish wavepacket dynamics 
36 
CNPI group theory 
36 (S) 
C_{2}H_{2} has many isomeric forms 
37 
Laser double resonance studies of electronic spectroscopy and vibrational state mixing in highly vibrationally excited C_{2}H_{2} 
38 
Laser double resonance studies of Ã^{1}A_{u} C_{2}H_{2} 