https://notendur.hi.is/agust/rannsoknir/Crete17/PPT-170926PG.ppt 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 Updated: 171020 (i.e. from e-mail 20.10.17, „Re: CH3I experiments and analysis;UPDATES” Prediction calc: https://notendur.hi.is/agust/rannsoknir/Crete17/XLS-170926PG.xlsx
Transition 1: CH3 (set 1 and set 2) 20 and 28-09-2017, CH3I at 358.835 nm, CH3 fragments
Transition 1: CH2 (set 1, space charge) 20-09-2017, CH3I at 358.835 nm, CH2 fragments
Transition 1: CH2 (set 2) 19-10-2017, CH3I at 358.835 nm, CH2 fragments
Transition 1: CH2 (set 3) 19-10-2017, CH3I at 358.835 nm, CH2 fragments
Transition 1: Iodine (set 2, irises low) and Iodine (set 3) 20-09-2017, CH3I at 358.835 nm, I fragments, irises low and 28-09-2017
Transition 1: photoelectrons 20-09-2017, CH3I at 358.835 nm, photoelectrons
Off resonance and Transition 1: CH3
Off resonance and Transition 1: iodine
Off resonance and Transition 1: photoelectrons
Transition 2: CH3 (set 1, VMI), CH3 (set 2, space charge) and CH3 (set 3, space charge) 20 and 29-09-2017, CH3I at 339.467 nm, CH3 fragments
Transition 2: CH3 (set 4) and CH3 (set 2, space charge) 29-09-2017 and 12-10-2017, CH3I at 339.467 nm, CH3 fragments
Transition 2: CH2 (set 2) and CH3 (set 1, space charge) 29-09-2017 and 13-10-2017, CH3I at 339.444 nm, CH2 fragments
2 29-09-2017, CH3I at 339.444 nm, I
2 (MOPO) 19-09-2017 CH3I_339.467 nm photoelectrons
2 (dye laser) 9(10), 15 are the strongest 29-09-2017 CH3I_339.444 nm photoelectrons
3 02-10-2017, CH3I at 336.979 nm, CH3 fragments
3 02 and 12-10-2017, CH3I at 336.979 nm, CH3 fragments
3 02-10-2017, CH3I at 336.979 nm, I fragments
3 9(10), 15 are the strongest 02-10-2017, CH3I at 336.979 nm, photoelectrons
4 a x KER’s, only 3 was recorded at 13-10 03-10-2017, CH3I at 336.357 nm, CH3 fragments
4 a z KER’s 03-10-2017, CH3I at 336.357 nm, CH3 fragments
4 a 03-10-2017, CH3I at 336.357 nm, I fragments
4 a 9(10), 15, I*+3hv=I+ 03-10-2017, CH3I at 336.357 nm, photoelectrons
4 b 03-10-2017, CH3I at 335.735 nm, CH3 fragments
4 b 04-10-2017, CH3I at 335.735 nm, I fragments
4 b 9(10), 12 are the strongest 03-10-2017, CH3I at 335.735 nm, photoelectrons
4 c Channels 7 and 8 04-10-2017, CH3I at 333.902 nm, CH3 fragments
4 c
4 c 04-10-2017, CH3I at 333.902 nm, photoelectrons
6 10-10-2017, CH3I at 324.502 nm, CH3
6 10-10-2017, CH3I at 324.502 nm, I
6 10-10-2017, CH3I at 324.502 nm, photoelectrons
6 (set2) 3.187E-5 11-10-2017, CH3I at 324.502 nm, photoelectrons
7 05-10-2017, CH3I at 317.120 nm, CH3 fragments
7 05-10-2017, CH3I at 317.120 nm, I fragments
7 05-10-2017, CH3I at 317.120 nm, photoelectrons
8 09-10-2017, CH3I at 310.146 nm, CH3
8 06-10-2017, CH3I at 310.153 nm, I fragments
8 09-10-2017, CH3I at 310.146 nm, I fragments
8 06-10-2017, CH3I at 310.153 nm, photoelectrons
9 10-10-2017, CH3I at 309.110 nm, I fragments
9 10-10-2017, CH3I at 309.110 nm, photoelectrons
9 (set 2) 11-10-2017, CH3I at 309.110 nm, photoelectrons
9 (set 3) 11-10-2017, CH3I at 309.110 nm, photoelectrons
9a 11-10-2017, CH3I at 309.759 nm, CH3
9a 11-10-2017, CH3I at 309.759 nm, I
9a 11-10-2017, CH3I at 309.759 nm, photoelectrons
Transition 10: CH3 (no signal) 20-10-2017, CH3I at 298.788 nm, CH3
Transition 10: iodine 20-10-2017, CH3I at 298.788 nm, iodine
Transition 10: photoelectrons 20-10-2017, CH3I at 298.788 nm, photoelectrons
Transition 11: CH3 (set 1, VMI) 25-09-2017, CH3I at 294.800 nm, CH3
Transition 11: CH3 (set 2) 20-10-2017, CH3I at 294.800 nm, CH3
11 25-09-2017, CH3I at 294.800 nm, I
11 25-09-2017, CH3I at 294.800 nm, photoelectrons
12 22-09-2017, CH3I at 286.586 nm, CH3 fragments
Off resonance and 12 22-09-2017, CH3I at 286.586 nm, I fragments and 26-09-2017, CH3I at 286.600 nm
22-09-2017, CH3I at 286.586 nm, photoelectrons 12 Difference between peaks ~0.17 eV OPLA vibrations of CH3 (3p 2A2), 1323 cm-1 or Def. vibrations of CH3 (X), 1402 cm-1 22-09-2017, CH3I at 286.586 nm, photoelectrons
Off resonance 26-09-2017, CH3I at 286.600 nm, CH3
Off resonance 22-09-2017, CH3I at 286.600 nm, photoelectrons
Off resonance 04-10-2017, CH3I at 335.166 nm, photoelectrons