Two-photon absorption-induced self-phase modulation in GaAs–AlGaAs waveguides for surface-emitted second-harmonic generation

Ulmer, Todd G.; Tan, Ronson K.; Zhou, Zhiping; Ralph, Stephen E.; Kenan, Richard P.; Verber, C. M.; SpringThorpe, A. J.

doi:10.1364/ol.24.000756

Cited by 28 publications

(14 citation statements)

References 13 publications

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“…[28][29][30] We find this surprising since we pump at a wavelength twice as long as in the degenerate case. This result enables us to modify efficiently the refractive index with a far detuned pump wavelength.…”

Section: Kerr Coefficient N 2 For Gaasmentioning

confidence: 87%

Kerr and free carrier ultrafast all-optical switching of GaAs/AlAs nanostructures near the three photon edge of GaAs

Hartsuiker

Harding

Nowicki-Bringuier

et al. 2008

Journal of Applied Physics

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We performed non-degenerate pump-probe experiments on a GaAs/AlAs photonic structure. We switched the photonic properties using the optical Kerr effect and free carriers excited by three photon absorption. From these measurements we extracted the non-degenerate Kerr coefficients over a broad wavelength range and we extracted the three photon absorption coefficient for GaAs at three wavelengths in the near infrared. We show that the optical Kerr effect is large enough to switch a cavity resonance with a high Q (Q > 1000) photonic cavity.

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Section: Kerr Coefficient N 2 For Gaasmentioning

confidence: 87%

Kerr and free carrier ultrafast all-optical switching of GaAs/AlAs nanostructures near the three photon edge of GaAs

Hartsuiker

Harding

Nowicki-Bringuier

et al. 2008

Journal of Applied Physics

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“…This effect has been shown to be a predominant one in self-phase modulation [43], and could possibly be the reason why a long delay transmission change is seen after a short pulse in recent experiments on GaN [13]. (12) where m eff is the reduced effective mass of the electron-hole pair, n 0 the linear refractive index and E g the bandgap energy.…”

Section: Expression For the K Wavevectormentioning

confidence: 94%

Two-photon-induced photoconductivity enhancement in semiconductor microcavities: a theoretical investigation

Folliot¹,

Lynch

Bradley

et al. 2002

J. Opt. Soc. Am. B

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Abstract:We provide a detailed theoretical investigation of two-photon absorption photoconductivity in semiconductor microcavities. We show that a high enhancement of the non-linear response (>10000) can be obtained due to the microcavity effect. We discuss in detail the design and performance (dynamic range, speed) of such a device with the help of an example of a AlGaAs/GaAs microcavity operating at 900nm. This device is promising for low intensity fast autocorrelation and demultiplexing applications.

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“…From simple free-carrier models for TPA in GaAs-based materials, [18][19][20] it can be shown that the change in refractive index is proportional to the square of the intensity. From simple free-carrier models for TPA in GaAs-based materials, [18][19][20] it can be shown that the change in refractive index is proportional to the square of the intensity.…”

Section: Modelingmentioning

confidence: 99%

“…This method allows for the comparison between the theoretical values of the free carriers induced index change for patterned and unpatterned AlGaAs, where is defined as 19 = e 2 2 pr 2 ⑀ 0 n 0 m eff This method allows for the comparison between the theoretical values of the free carriers induced index change for patterned and unpatterned AlGaAs, where is defined as 19 = e 2 2 pr 2 ⑀ 0 n 0 m eff…”

Section: Modelingmentioning

confidence: 99%

Ultrafast nonlinear tuning of the reflection properties of AlGaAs photonic crystal waveguides by two-photon absorption

Bristow

Kundys

Garcia-Deniz

et al. 2004

Journal of Applied Physics

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We have studied the power-dependent wavelength shift of photonic coupling resonances of a two-dimensional photonic crystal waveguide by reflection geometry pump-probe measurements. The quadratic response is indicative of two-photon induced carrier creation, which alters the refractive index of the semiconductor core of the photonic lattice. A free-carrier model is used to simulate the phenomenon, giving values of the change in refractive index per unit carrier density that satisfactorily compare to values calculated for bulk AlGaAs under similar conditions. Time-resolved spectra are also presented, showing relaxation times of Ͻ10 ps which are consistent with surface recombination times in the patterned waveguide.

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Two-photon absorption-induced self-phase modulation in GaAs–AlGaAs waveguides for surface-emitted second-harmonic generation

Cited by 28 publications

References 13 publications

Kerr and free carrier ultrafast all-optical switching of GaAs/AlAs nanostructures near the three photon edge of GaAs

Kerr and free carrier ultrafast all-optical switching of GaAs/AlAs nanostructures near the three photon edge of GaAs

Two-photon-induced photoconductivity enhancement in semiconductor microcavities: a theoretical investigation

Ultrafast nonlinear tuning of the reflection properties of AlGaAs photonic crystal waveguides by two-photon absorption

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