1. CH3I summary This file includes some ideas about dissociation of
CH3I inside a cluster, as suggested previously by Petros
It seems to be the only explanation of the very fast iodine
Update: ; i.e. from PG´s „Re: CH3I experiments and analysis;UPDATES “

2. CH3

3. Transition 1: CH3 (set 1)
, CH3I at nm, CH3 fragments

4. Transition 1: CH3 (set 2)
, CH3I at nm, CH3 fragments

5. Transition 1: CH2 (set 1, space charge)
, CH3I at nm, CH2 fragments

6. Transition 1: CH2 (set 2)
, CH3I at nm, CH2 fragments

7. Transition 1: CH2 (set 3)
, CH3I at nm, CH2 fragments

8. Transition 1: Iodine (set 2, irises low)
, CH3I at nm, iodine, irises low

9. Transition 1: Iodine (set 3)
, CH3I at nm, iodine

10. Off resonance (close to transition 1): CH3
, CH3I at nm, CH3 fragments

11. Off resonance (close to transition 1): Iodine
, CH3I at nm, iodine

12. Transition 2: CH3 (set 1, VMI)
, CH3I at nm, CH3 fragments

13. Transition 2: CH3 (set 2, space charge)
, CH3I at nm, CH3 fragments

14. Transition 2: CH3 (set 3, space charge)
We did not record z here
, CH3I at nm, CH3 fragments

15. Transition 2: CH3 (set 4)
, CH3I at nm, CH3 fragments

16. Transition 2: CH2 (set 1, space charge)
, CH3I at nm, CH2

17. Transition 2: CH2 (set 2)
, CH3I at nm, CH2

18. Transition 2: Iodine
, CH3I at nm, iodine

19. Transition 3: CH3 (set 1, space charge)
, CH3I at nm, CH3 fragments

20. Transition 3: CH3 (set 2)
, CH3I at nm, CH3 fragments

21. Transition 3: Iodine
, CH3I at nm, iodine

22. Transition 4a: CH3 (space charge)
, CH3I at nm, CH3 fragments

23. Transition 4a: CH3 (good series, x was not finished due to the laser malfunction, try again)
, CH3I at nm, CH3 fragments

24. Transition 4a: CH3
, CH3I at nm, CH3 fragments

25. Transition 4a: Iodine
, CH3I at nm, iodine

26. Transition 4b: CH3
, CH3I at nm, CH3 fragments

27. Transition 4b: Iodine
, CH3I at nm, iodine

28. Transition 4c: CH3
, CH3I at nm, CH3 fragments

29. Transition 4c: Iodine
, CH3I at nm, iodine

30. Transition 6: CH3
, CH3I at nm, CH3

31. Transition 6: Iodine
, CH3I at nm, Iodine

32. Transition 7: CH3
, CH3I at nm, CH3 fragments

33. Transition 7: Iodine
, CH3I at nm, iodine

34. Transition 8: CH3 (space charge)
, CH3I at nm, CH3

35. Transition 8: CH3 (good series)
, CH3I at nm, CH3

36. Transition 8: Iodine
, CH3I at nm, iodine

37. Transition 8: Iodine
, CH3I at nm, iodine

38. Transition 9: CH3 was not recorded due to a very low signal

39. Transition 9: Iodine
, CH3I at nm, iodine

40. Transition 9: CH3
, CH3I at nm, CH3 fragments

41. Transition 9: Iodine
, CH3I at nm, iodine

42. Transition 10: CH3 (no signal)
, CH3I at nm, CH3

43. Transition 10: Iodine
, CH3I at nm, iodine

44. Transition 11: CH3 (set 1, VMI)
, CH3I at nm, CH3 (VMI)

45. Transition 11: CH3 (set 2)
, CH3I at nm, CH3

46. Transition 11: Iodine
, CH3I at nm, Iodine

47. Transition 12: CH3
, CH3I at nm, CH3 fragments

48. Transition 12: Iodine
, CH3I at nm, iodine

49. Off resonance (close to transition 12): CH3
, CH3I at nm, CH3

50. Off resonance (close to transition 12): Iodine
, CH3I at nm, iodine