• DocumentCode
    1742070
  • Title

    Relaxation dynamics of the hydrated electron studied with 5 fs pulses

  • Author

    Baltuska, A. ; Pshenichnikov, M.S. ; Wiersma, D.A.

  • Author_Institution
    Groningen Univ., Netherlands
  • fYear
    2000
  • fDate
    12-12 May 2000
  • Firstpage
    246
  • Abstract
    Summary form only given. Basically, the hydrated electron is an excess electron trapped in a potential well formed by surrounding water molecules, with an s-like ground state and three non-degenerate p-type excited states. The electron surrounded by the oriented water molecules is a chemical reactant with an unusually high electron donor capacity as its characteristic chemical feature. On the other hand, it seems to be one of the simplest physical systems to study solvation dynamics and to test mixed quantum classical theories experimentally. Yet, even after decades of intensive experimentation and calculations on the hydrated electron, understanding of its relaxation dynamics is far from being complete. One of the most important questions is the explanation of an /spl sim/1 ps relaxation rate of the photo-excited hydrated electron. This rate has been controversially attributed to the population lifetime of the p-state or cooling of the ground state after rapid relaxation from the p-state. We present the experimental study of the energy relaxation of the photo-excited hydrated electron. The results of frequency-resolved pump-probe with 5-fs pulses provide sufficient evidence in favor of the hot-ground-state model. The initial ultrafast energy relaxation of the photo-excited electron, controlled by the librations of the surrounding water molecules, takes place during the /spl sim/50 fs upon the excitation. We show that after the first 100 fs almost the entire population of the p-state is transferred to the hot ground state that subsequently cools down on a ps time scale.
  • Keywords
    chemical relaxation; cooling; excited states; ground states; high-speed optical techniques; librational states; photochemistry; radiative lifetimes; reaction kinetics; solvated electrons; solvation; 5 fs; H/sub 2/O; chemical reactant; cooling; electron donor capacity; energy relaxation; excess electron; excitation; frequency-resolved pump-probe; ground state; hot ground state; hot-ground-state model; hydrated electron; librations; mixed quantum classical theories; nondegenerate p-type excited states; oriented water molecules; p-state; photo-excited electron; photo-excited hydrated electron; physical systems; population lifetime; potential well; ps time scale; rapid relaxation; relaxation dynamics; relaxation rate; s-like ground state; solvation dynamics; surrounding water molecules; ultrafast energy relaxation; Absorption; Chemicals; Cooling; Delay; Electrons; Potential well; Solids; Stationary state; System testing; Water;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Quantum Electronics and Laser Science Conference, 2000. (QELS 2000). Technical Digest
  • Conference_Location
    San Francisco, CA, USA
  • ISSN
    1094-5695
  • Print_ISBN
    1-55752-608-7
  • Type

    conf

  • Filename
    902056