Nor Ammouri scite author profile

Nor Ammouri

5Publications

26Citation Statements Received

58Citation Statements Given

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Ferdinand-Braun-Institut

Publications

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Internally wavelength stabilized 910 nm diode lasers with epitaxially stacked multiple active regions and tunnel junctions

Wenzel

Fricke

Maaßdorf

et al. 2021

Electronics Letters

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We present a multi‐active‐region bipolar‐cascade distributed‐Bragg reflector (DBR) laser emitting around 910 nm. The three active regions and two tunnel junctions are located in a single waveguide core sharing the same third‐order vertical mode. A slope efficiency of 2.25 W/A was measured with a threshold current density of 400 A/cm2. Due to the implemented 7th Bragg order surface grating, the laser exhibits a narrow optical spectrum with a width of 0.3 nm and a thermal detuning of 60 pm/K.

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2 kW Pulse Power from Internal Wavelength Stabilized Diode Laser Bar for LiDAR Applications

Knigg

Ammouri

Christopher

et al. 2022

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Wavelength‐stabilized ns‐pulsed 2.2 kW diode laser bar with multiple active regions and tunnel junctions

Ammouri

Christopher

Fricke

et al. 2022

Electronics Letters

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The improvement of the performance of a distributed Bragg reflector laser bar emitting near 905 nm through the use of multiple epitaxially stacked active regions and tunnel junctions is reported. The bar consisting of 48 emitters (each having an aperture of 50 µm) emits an optical power of 2.2 kW in 8 ns long pulses at an injection current of 1.1 kA. This corresponds to an almost threefold increase of the pulse power compared to a bar with lasers having only a single active region. Due to the integrated surface Bragg grating, the bar exhibits a narrow spectral bandwidth of about 0.3 nm and a thermal tuning of only 68 pm/K.

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Wavelength-stabilized ns-pulsed 2.2 kW diode laser bar with multiple active regions and tunnel junctions

Ammouri

Christopher

Fricke

et al. 2022

Preprint

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The improvement of the performance of a distributed Bragg reflector laser bar emitting near 905 nm through the use of multiple epitaxially stacked active regions and tunnel junctions is reported. The bar consisting of 48 emitters (each having an aperture of 50 μm) emits an optical power of 2.2 kW in 8 ns long pulses at an injection current of 1.1 kA. This corresponds to an almost threefold increase of the pulse power compared to a bar with lasers having only a single active region. Due to the integrated surface Bragg grating, the bar exhibits a narrow spectral bandwidth of about 0.3 nm and a thermal tuning of only 68 pm/K.

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Internally wavelength stabilized GaAs-based diode lasers with epitaxially-stacked multiple active regions and tunnel junctions for LiDAR applications

Wenzel

Fricke

Maasdorf³

et al. 2021

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Nor Ammouri

Internally wavelength stabilized 910 nm diode lasers with epitaxially stacked multiple active regions and tunnel junctions

2 kW Pulse Power from Internal Wavelength Stabilized Diode Laser Bar for LiDAR Applications

Wavelength‐stabilized ns‐pulsed 2.2 kW diode laser bar with multiple active regions and tunnel junctions

Wavelength-stabilized ns-pulsed 2.2 kW diode laser bar with multiple active regions and tunnel junctions

Internally wavelength stabilized GaAs-based diode lasers with epitaxially-stacked multiple active regions and tunnel junctions for LiDAR applications

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