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The Nature of a “Floating” Electron Maksim Skorobogatiy, John Joannopoulos MIT, Department of Physics.

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Presentation on theme: "The Nature of a “Floating” Electron Maksim Skorobogatiy, John Joannopoulos MIT, Department of Physics."— Presentation transcript:

1 The Nature of a “Floating” Electron Maksim Skorobogatiy, John Joannopoulos MIT, Department of Physics

2 Structure of a Fully Solvated Electron in the Bulk of Water

3 Classical Water Simulation 15 A 7.5 A 15 A 7.5 A Vacuum Surface and Bulk Ice-like first 2 layers pinned by springs to the ice equilibrium positions. Thermostat is implemented by rescaling the velocities of these atoms every 5fs. Net average dipole along vertical direction is close to zero.

4 Thermodynamic Properties of Classical Water, Diffusion Coefficients Δ D(t,Δt)

5 Thermodynamic Properties of Classical Water, Preferred Dipole Orientation

6 Initial Localization of the Electron Cloud

7 Dynamics of the “Floating" Excess Electron on the Water Surface Trap lifetimes 160-400 fs Transition times 30-60 fs Trap sizes 0.3 - 0.7 A

8 Short Time Diffusion Coefficient of the “Floating" Excess Electron on the Water Surface

9 Nature of the Inter-Trap Transitions (transition attempt)

10 Nature of the Inter-Trap Transitions (transition success)

11 Long Time Diffusion Coefficient of the “Floating" Excess Electron on the Water Surface Formation of a Stable Surface State Δt=1ps

12 Spectral Densities of the VACF of the Center of Mass of Excess Electron Δt=1ps t=0-2ps t=2-6ps

13 Surface State

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