Anas F. Jarjour scite author profile

We report direct evidence for the control of the oscillator strength of the exciton state in a single quantum dot by the application of a vertical electric field. This is achieved through the study of the radiative lifetime of a single InGaN-GaN quantum dot in a p-i-n diode structure. Our results are in good quantitative agreement with theoretical predictions from an atomistic tight-binding model. Furthermore, the increase of the overlap between the electron and hole wave functions due to the applied field is shown experimentally to increase the attractive Coulomb interaction leading to a change in the sign of the biexcitonic binding energy.

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Temporal variation in photoluminescence from single InGaN quantum dots

Rice

Robinson

Jarjour

et al. 2004

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We report measurements of optical transitions in single III/V ͑InGaN͒ quantum dots as a function of time. Temporal fluctuations in microphotoluminescence peak position and linewidth are demonstrated and attributed to spectral diffusion processes. The origin of this temporal variation is ascribed to randomly generated local electric fields inducing a Stark shift in the optical emission peaks of the InGaN quantum dots.

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Cavity-enhanced blue single-photon emission from a single InGaN∕GaN quantum dot

Jarjour

Taylor

Oliver

et al. 2007

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The authors report on the generation of single photons in the blue spectral region from a single InGaN∕GaN quantum dot. The collection efficiency was enhanced by embedding the quantum dot layer in the middle of a low-Q microcavity. The microphotoluminescence is observed to be approximately ten times stronger than typical InGaN quantum dot emission without a cavity. The measurements were performed using nonlinear excitation spectroscopy in order to suppress the background emission from the underlying wetting layer.

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Time-resolved dynamics in single InGaN quantum dots

Robinson

Rice

Jarjour

et al. 2003

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Articles you may be interested inBlue single photon emission up to 200K from an InGaN quantum dot in AlGaN nanowire Appl. Phys. Lett. 102, 161114 (2013); 10.1063/1.4803441 Time-resolved and time-integrated photoluminescence studies of coupled asymmetric GaN quantum discs embedded in AlGaN barriersDiscrimination of local radiative and nonradiative recombination processes in an InGaN/GaN single-quantum-well structure by a time-resolved multimode scanning near-field optical microscopy

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Two-photon absorption from single InGaN/GaN quantum dots

Jarjour

Green

Parker

et al. 2006

Physica E: Low-dimensional Systems and Nanostructures

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Anas F. Jarjour

Control of the Oscillator Strength of the Exciton in a Single InGaN-GaN Quantum Dot

Temporal variation in photoluminescence from single InGaN quantum dots

Cavity-enhanced blue single-photon emission from a single InGaN∕GaN quantum dot

Time-resolved dynamics in single InGaN quantum dots

Two-photon absorption from single InGaN/GaN quantum dots

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