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Minimum Energy Path for O 3 → O 2 + O

Minimum Energy Path for O 3 → O 2 + O. 1D slice of the PES along the MEP (to the right) will be used throughout this presentation to show the value of energy fixed for each iso-energy surface. 1. O. O. O. O. O. O. O. O. O. 2. 3. E = – 1.0 eV. Shadow. 3D PES of Ozone in the

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Minimum Energy Path for O 3 → O 2 + O

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  1. Minimum Energy Path for O3→ O2 + O 1D slice of the PES along the MEP (to the right) will be used throughout this presentation to show the value of energy fixed for each iso-energy surface.

  2. 1. O O O O O O O O O 2. 3. E = – 1.0 eV Shadow 3D PES of Ozone in the Hyperspherical Coordinates Sits at the bottom of covalent wells... (there are three)

  3. E = – 0.9 eV Shadow 3D PES of Ozone in the Hyperspherical Coordinates

  4. E = – 0.8 eV Shadow 3D PES of Ozone in the Hyperspherical Coordinates

  5. E = – 0.7 eV Shadow 3D PES of Ozone in the Hyperspherical Coordinates

  6. E = – 0.6 eV Shadow 3D PES of Ozone in the Hyperspherical Coordinates

  7. E = – 0.5 eV Shadow 3D PES of Ozone in the Hyperspherical Coordinates

  8. E = – 0.4 eV Shadow 3D PES of Ozone in the Hyperspherical Coordinates

  9. E = – 0.3 eV Shadow 3D PES of Ozone in the Hyperspherical Coordinates

  10. E = – 0.2 eV Shadow 3D PES of Ozone in the Hyperspherical Coordinates

  11. E = – 0.1 eV Shadow 3D PES of Ozone in the Hyperspherical Coordinates

  12. E = – 0.03 eV Shadow 3D PES of Ozone in the Hyperspherical Coordinates

  13. E = – 0.027 eV O O O i. ii. O O O Shadow 3D PES of Ozone in the Hyperspherical Coordinates Tunnels into the vdW wells... (there are six!)

  14. E = – 0.02 eV Shadow 3D PES of Ozone in the Hyperspherical Coordinates Goes over the reefs...

  15. E = – 0.012 eV Shadow Allows permutation of atoms...

  16. E = 0 O O I. O O O II. O O O III. O Reaches fragmentation channels... (there are three)

  17. Entire ozone PES at energy E = DZPE (channels are trancated at 11 a.u. at the top )

  18. r q, f Explanation of the Hyper-spherical Coordinates: Euler ( r,, ; , ,  ) Size Shape

  19. O O O Recombination O2 + O → O3 No insertion !

  20. O O 117° O 2.4a0 Dissociation O3→ O2 + O No extraction !

  21. Position of Cyclic-O3 O O O E = DZPE E = DZPE + 0.5 eV ?

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