Time-Frequency resolved ultrafast spectroscopy techniques using wavelet analysis.

  1. Javier Prior 1
  2. Enrique Castro 1
  3. Alex W. Chin
  4. Javier Almeida
  5. Susana F. Huelga
  6. Martin B. Plenio
  1. 1 Universidad Politécnica de Cartagena
    info

    Universidad Politécnica de Cartagena

    Cartagena, España

    ROR https://ror.org/02k5kx966

Revista:
Journal of Chemical Physics

ISSN: 0021-9606

Año de publicación: 2013

Tipo: Artículo

Otras publicaciones en: Journal of Chemical Physics

Resumen

New experimental techniques based on non-linear ultrafast spectroscopies have been developed over the last few years, and have been demonstrated to provide powerful probes of quantum dynamics in different types of molecular aggregates, including both natural and artificial light harvesting complexes. Fourier transform-based spectroscopies have been particularly successful, yet 'complete' spectral information normally necessitates the loss of all information on the temporal sequence of events in a signal. This information though is particularly important in transient or multi-stage processes, in which the spectral decomposition of the data evolves in time. By going through several examples of ultrafast quantum dynamics, we demonstrate that the use of wavelets provide an efficient and accurate way to simultaneously acquire both temporal and frequency information about a signal, and argue that this greatly aids the elucidation and interpretation of physical process responsible for non-stationary spectroscopic features, such as those encountered in coherent excitonic energy transport.