Thermal Lensing Spectroscopy and Local Mode Oscillators |
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Page 18
... dissociation energy for the compounds studied if we consider the dissociation energy to correspond to the maximum value for △ Ev , o . ( 9 ) This value is given by AEmay = -A2 / 4B ( 1.2 ) " which , incidentally , is isotope ...
... dissociation energy for the compounds studied if we consider the dissociation energy to correspond to the maximum value for △ Ev , o . ( 9 ) This value is given by AEmay = -A2 / 4B ( 1.2 ) " which , incidentally , is isotope ...
Page 25
... dissociation . On the one hand , it will be interesting to find out how firmly Eq . ( 1.1 ) will hold - and thereby aid in elucidating the lower energy regions of the potential energy surface . On the other hand , breakdown of Eq ...
... dissociation . On the one hand , it will be interesting to find out how firmly Eq . ( 1.1 ) will hold - and thereby aid in elucidating the lower energy regions of the potential energy surface . On the other hand , breakdown of Eq ...
Page 87
... force constants maintaining the universal intensity permit a C - H type dependent spectrum and dissociation energy . We hope to explore these questions in the near future . 1 . CHAPTER 4 REFERENCES · R. L. Swofford , 87.
... force constants maintaining the universal intensity permit a C - H type dependent spectrum and dissociation energy . We hope to explore these questions in the near future . 1 . CHAPTER 4 REFERENCES · R. L. Swofford , 87.
Common terms and phrases
2,2,4-trimethylpentane A. C. Albrecht ab initio absorption peak absorption spectrum alkane anharmonic oscillators B. R. Henry basis set benzene C-H benzene-d5 Burberry C-H bonds C-H group C-H LM C-H oscillators C-H radical C-H stretching calculation CALL OUTPUT CD3OH CH3OH Chem coefficients coordinates curves determined diagonalization dipole moment function dipole moment operator dissociation dye laser EIGENVALUES EIGENVECTORS electronic dipole Energy cm excitation expansion experimental F. G. Smith Figure force constant GOSUB GOTO Hamiltonian hydrogen hydrogen-bond K,NN lens liquid LM model LM oscillators LM overtone LM's M. E. Long M₂ MATRIX ELEMENTS methanol methyl group molecules Morse nuclear displacement obtained one-dimensional overtone transitions p-xylene parameters Phys potential energy power series predicted quantum level quantum number quartic potential R. L. Swofford rhodamine 6G shutter spectroscopy spectrum SQRT stepping motor SUBROUTINE subspace Table thermal lensing spectrometer thermo-optical trimethylbenzene two-parameter unit intensity wavefunctions WAVELENGTH zeroth-order LM