Absorption and Emission in the Non-Poissonian Case Metadata

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Title

  • Main Title Absorption and Emission in the Non-Poissonian Case

Creator

  • Author: Aquino, Gerardo
    Creator Type: Personal
    Creator Info: University of North Texas
  • Author: Palatella, Luigi
    Creator Type: Personal
    Creator Info: Universit√° di Pisa and INFM
  • Author: Grigolini, Paolo
    Creator Type: Personal
    Creator Info: University of North Texas; Universit√° di Pisa and INFM; Istituto dei Processi Chimico Fisici del CNR

Publisher

  • Name: American Physical Society
    Place of Publication: [College Park, Maryland]

Date

  • Creation: 2004-07-28

Language

  • English

Description

  • Content Description: Article on absorption and emission in the Non-Poissonian Case.
  • Physical Description: 4 p.

Subject

  • Keyword: Kubo-Anderson theory
  • Keyword: non-Poisson

Source

  • Journal: Physical Review Letters, 2004, College Park: American Physical Society

Citation

  • Publication Title: Physical Review Letters
  • Volume: 93
  • Issue: 5
  • Pages: 4
  • Peer Reviewed: True

Collection

  • Name: UNT Scholarly Works
    Code: UNTSW

Institution

  • Name: UNT College of Arts and Sciences
    Code: UNTCAS

Rights

  • Rights Access: public

Resource Type

  • Article

Format

  • Text

Identifier

  • DOI: 10.1103/PhysRevLett.93.050601
  • Archival Resource Key: ark:/67531/metadc67641

Degree

  • Academic Department: Physics
  • Academic Department: Center for Nonlinear Science

Note

  • Display Note: Copyright 2004 American Physical Society. The following article appeared in Physical Review Letters, 93:5; http://prl.aps.org/abstract/PRL/v93/i5/e050601
  • Display Note: Abstract: This Letter addresses the challenging problems posed to the Kubo-Anderson (KA) theory by the discovery of intermittent resonant fluorescence with a nonexponential distribution of waiting times. We show how to extend the KA theory from aged to aging systems, aging for a very extended time period or even forever, being a crucial consequence of non-Poisson statistics.