Comptes Rendus
Photonique moleculaire : matériaux, physique et composants/Molecular photonics: materials, physics and devices
Universality in unintentional laser resonators in π-conjugated polymer films
Comptes Rendus. Physique, Volume 3 (2002) no. 4, pp. 509-521.

When films of π-conjugated polymers are optically excited above a certain threshold intensity, then the emission spectrum acquires a multimode finely structured shape, which depends on the position of the excitation spot. We demonstrate that the power Fourier transform (PFT) of the emission spectrum exhibits a certain peak-like structure, which also depends on the excitation spot. Our intriguing observation is that averaging the individual PFTs does not lead to a structureless curve, but rather yields a series of distinct transform peaks. This suggests universality, namely that the underlying random resonators that are responsible for the laser emission from the π-conjugated polymer film are almost identical. We argue that the reason for such an universality is the large size of a typical resonator, which we determined from the PFT, as compared to the emission wavelength, λ. This fact is, in turn, a consequence of the large light mean free path, l*10λ in the polymer film. This contrasts previous observations of random lasing in powders, where l*λ. We develop a simple theory that explains the presence of peaks in the average PFT and predicts their shape. The results of the theory agree quantitatively with the data.

Accepté le :
Publié le :
DOI : 10.1016/S1631-0705(02)01336-1
Mots clés : random lasing, Fourier transform, $ \mathbf{\pi }$-conjugated polymer

Randall C. Polson 1 ; Mikhail E. Raikh 1 ; Z.Valy Vardeny 1

1 Department of Physics, University of Utah, Salt Lake City, UT 84112, USA
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Randall C. Polson; Mikhail E. Raikh; Z.Valy Vardeny. Universality in unintentional laser resonators in $ \mathbf{\pi }$-conjugated polymer films. Comptes Rendus. Physique, Volume 3 (2002) no. 4, pp. 509-521. doi : 10.1016/S1631-0705(02)01336-1. https://comptes-rendus.academie-sciences.fr/physique/articles/10.1016/S1631-0705(02)01336-1/

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