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Article Dans Une Revue Nature Photonics Année : 2012

All-optical wavelength shifting in a semiconductor laser using resonant nonlinearities

Résumé

For future ultrafast all-optical networks, new optical devices are required that can directly manipulate communication channels and shift their wavelength over the bandwidth of an optical fibre (50 THz)1,2. Solutions based on nonlinear processes have been proposed, but these suffer from having only low efficiencies as a result of low nonlinear susceptibilities3. Here, we demonstrate all-optical wavelength conversion of a near-infrared beam using a resonant nonlinear process within a terahertz quantum cascade laser4. The process is based on injecting a lowpower continuous-wave near-infrared beam in resonance with the interband transitions of the quantum cascade laser. This results in an enhanced nonlinearity that allows efficient generation of the difference and sum frequency, shifting the frequency of the near-infrared beam by the frequency of the quantum cascade laser. Efficiencies of 0.13% are demonstrated, which are equivalent to those obtained using free electron lasers. As well as having important implications in its application in ultrafast wavelength shifting, this work also opens up the possibility of efficiently upconverting terahertz radiation to the near-infrared and enables the study of high terahertz-optical field interactions with quantum structures using quantum cascade lasers.
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Dates et versions

hal-00740672 , version 1 (10-10-2012)

Identifiants

  • HAL Id : hal-00740672 , version 1

Citer

Julien Madéo, P. Cavalié, Joshua R. Freeman, Nathan Jukam, Jean Maysonnave, et al.. All-optical wavelength shifting in a semiconductor laser using resonant nonlinearities. Nature Photonics, 2012, 6, pp.519. ⟨hal-00740672⟩
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