2-16. Distribution of Electron Energy Between Different Channels of Excitation and Ionization. After analyzing Figs. 2-27-2-34, identify molecular gases with the highest ability to selectively localize discharge energy into vibrational excitation. What is the highest percentage of electron energy that can be selectively transferred to vibrational excitation? Which values of reduced electric field or electron temperatures are optimal to reach this selective regime? Figure 2-27. Electron energy distribution between excitation channels in Kr (5\%)-Ar (95\%) mixture. Figure 2-28. Fi O2,NO, and H2. Figure 2-29. Electron energy distribution between excitation channels in CO2. Figure 2-30. Electron energy distribution between excitation channels in molecular nitrogen at different Fihgare 2-31. Electron encigy distribution betwoen different excitation and ionization channels in water vapar. Figure 2-33. Electron energy distribution between different excitation and ionization channels in CO2(50%)CO(50%) mixture. Figure 2-34. Electron energy distribution bet ween different excitation and ionization channel in CO. 2-16. Distribution of Electron Energy Between Different Channels of Excitation and Ionization. After analyzing Figs. 2-27-2-34, identify molecular gases with the highest ability to selectively localize discharge energy into vibrational excitation. What is the highest percentage of electron energy that can be selectively transferred to vibrational excitation? Which values of reduced electric field or electron temperatures are optimal to reach this selective regime? Figure 2-27. Electron energy distribution between excitation channels in Kr (5\%)-Ar (95\%) mixture. Figure 2-28. Fi O2,NO, and H2. Figure 2-29. Electron energy distribution between excitation channels in CO2. Figure 2-30. Electron energy distribution between excitation channels in molecular nitrogen at different Fihgare 2-31. Electron encigy distribution betwoen different excitation and ionization channels in water vapar. Figure 2-33. Electron energy distribution between different excitation and ionization channels in CO2(50%)CO(50%) mixture. Figure 2-34. Electron energy distribution bet ween different excitation and ionization channel in CO