P. Gotta scite author profile

FBG can improve the spectral efficiency of mmwave fiber-radio systems employing wavelength interleaving and optical single-sideband modulation. Our results demonstrate the effectiveness of the FBG in dropping the required carrier wavelength and sideband. In addition excellent isolation between the added and dropped channels was demonstrated when the FBG was employed in asystem incorporatingbathaddanddropconfigurations. We are now investigating the aptimilation of the grating in order to improve the rolloff of the transmission notches and minimize transmission amplitude ripples. References1. G. Smith, D. Novak and C. Lim,"A millimeter-wave full duplex fiber radio star-tree architecture incorporating WDM and SCM," IEEE Photon. Tech. Lett. vol. 10, pp. 1 6 5 6 1652 (1998). 2. H. Schmuck, "Comparison of optical miL limeter-wave system concepts with regard to chromaticdispersion:'Electron.

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Wavelength-stabilized DBR high-power diode laser

Paoletti

Coriasso

Meneghini

et al. 2020

J. Phys. Photonics

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This paper reports a wavelength-stabilized high-power diode laser emitting up to 14 W CW in the 9xx nm range. Wavelength stabilization is achieved by a distributed Bragg reflector (DBR) monolithically integrated in the diode laser chip. Key features are identical layer epitaxy (ILE) and the use of a multiple-order electron beam lithography (EBL) optical confining grating. ILE avoids any regrowth or complex technology processes, while EBL multiple-order grating allows narrow-band back reflection and effective lateral optical confinement, and makes it possible to stabilize multiple wavelengths on the same wafer using a manufacturable and reliable technology. DBR diode lasers with different pitches, whose wavelengths were 3 nm spaced, were fabricated and high spectral purity (95% optical power within about 0.6 nm) and wavelength stability were measured. Moreover, the high uniformity of performances across the wafer with different emitted wavelengths demonstrates the maturity of the proposed technology for high-yield, high-volume laser diode production for wavelength-stabilized applications. A multi-emitter module, including ten DBR diode lasers, collimating and focusing optics, showed 100 W CW wavelength-stabilized output power at 14 A in a 135 μm core optical fiber within 0.17 NA. Single diode lasers, or multi-emitter modules, can be used to combine high-power optical beams by wavelength division multiplexing (WDM) using dichroic optics, scaling up beam power to the kW range and maintaining optical beam quality.

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Compact high-brightness and highly manufacturable blue laser modules

Serafini

Riva

Pippione³

et al. 2021

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P. Gotta

Highly reliable and high-yield 1300-nm InGaAlAs directly modulated ridge fabry-Perot lasers, operating at 10-gb/s, up to 110/spl deg/C, with constant current swing

100°C, 10 Gb/s directly modulated InGaAsP DFB lasers for uncooled Ethernet applications

100/spl deg/C, 10 Gb/s directly modulated InGaAsP DFB lasers for uncooled Ethernet applications

Wavelength-stabilized DBR high-power diode laser

Compact high-brightness and highly manufacturable blue laser modules

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