| DETERMINATION OF THE LONG RANGE POTENTIAL AND DISSOCIATION ENERGY OF THE $Na_{2} 1^{3}\Delta_{g}$ STATE. $B\Pi$. (1994) | |||||||||
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| $^{1}$. C.-C. Tsai, J. T Bahns, and W. C. Stwalley, Rev. Sci. Instrum. 63, 5576(1992).. Author Institution: Physics Department, University of Connecticut; Dalian Institute of Chemical Physics, Chinese Academy of Sciences; Department of Chemistry, National Cheng Kung University; Physics Department, University of Connecticut; Physics Department, Temple University; Physics Department, University of Connecticut. Extensive studies on the $NA_{2}\ 1^{3} \Delta_{g}$ state from $v = 0$ up to $v = 94$ by perturbation Facilitated Optical-Optical Double Resonance spectroscopy with an Ultrasensitive Ion $Detector^{1}$ has allowed the accurate determination of the long range potential and the dissociation energy. This gives an improved value of Do as $7096.56 \pm 0.03 cm^{-1}$. Such high resolution spectroscopy also reveals the hyperfine structures at various rotational quantum numbers ranging from $N = 2$ to $N = 51$. | |||||||||
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