"Time arrow" in wave-packet evolution

R. Engelman, A. Yahalom

Research output: Contribution to journalArticlepeer-review

5 Scopus citations

Abstract

Availability of short, femtosecond laser pulses has recently made feasible the probing of phases in an atomic or molecular wave-packet (superposition of energy eigenstates). With short duration excitations the initial form of the wave-packet is an essentially real "doorway state," and this develops phases for each of its component amplitudes as it evolves. It is suggested that these phases are hallmarks of a time arrow and irreversibility that are inherent in the quantum mechanical processes of preparation and evolution. To display the non-triviality of the result, we show under what conditions it would not hold; to discuss its truth, we consider xome apparent contradictions. We propose that (in time-reversal invariant systems) the preparation of "initially" complex wave-packets needs finite times to complete, i.e., is not instantaneous.

Original languageEnglish
Pages (from-to)329-343
Number of pages15
JournalFoundations of Physics Letters
Volume13
Issue number4
DOIs
StatePublished - Aug 2000

Keywords

  • Complex wavefunctions
  • Molecular wave-packet
  • Phase measurements
  • Quantum mechanical reversibility
  • Rydberg-states
  • Time arrow

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