Vibration—vibration energy exchange between carbon monoxide and carbon dioxide

nlC rates of V-V energy transfer fnr CO-02 in the temperature range 133 to 323OK were studied using a stcodystale vibrational quenching techvique. This work clrars the discrepancy between previous availoblc room temperature mcasurrmcnts, and demonstrates a linear dependence of log V-V exchange proba

## Abstract The temperature dependence of the vibration–vibration energy transfer between the __v__~3~ mode of ^15^N^14^NO and the first vibrational level of CO was determined over a range of 680 to 1300°K using a shock tube. Several mixtures of ^15^N^14^NOCO were tested, diluted in 95% Ar. The re

## Abstract The temperature dependence of the vibration–vibration energy transfer between the __v__~3~ mode of N~2~O and the first vibrational level of CO was determined over a range of 780 to 1400°K using a shock tube. Several mixtures of CO‐N~2~O were tested, diluted in 95% Ar. The Landau–Teller

Samples of highly oriented pyrolytic graphite reacted with oxygen under various conditions have been studied using optical microscopy and both transmission and scanning electron microscopy. In this manner the effects of oxidation on basal and edge surfaces have been separately evaluated. The orienta

## Abstract The present study reports the measurement of the V–V energy transfer rates for the CO\*COS system in the temperature range of 195 to 370°K. The measured rates exhibit a slight inverse temperature dependence. The experimental results are compared to prediction based on a model of long‐r