Compact monolithically integrated narrow-band photoreceivers with a high responsivity at millimeter-wave frequencies were realized.
We report on advanced millimeter-wave (mm-wave) photonic components for broadband radio transmission.
A photonic architecture for the up-conversion of a typical millimetre-wave 802.15.3c OFDM signal is experimentally demonstrated. The system is based on a 55 GHz mode-locked laser.
Arrayed waveguide grating multi-wavelength lasers have been shown to provide simultaneously multiple wavelengths.
We describe the design and characteristics of InGaAs PIN photodetectors mounted in microwave waveguides for use in transmission of millimeter-wave modulation signals on optical carriers.
The rapidly advances in wireless communications and market trends have made it imperative for the mobile communications industry to explore millimetre-wave (mm-wave) bands.
Milliwatt second harmonic power at 4.45 mum was achieved in InP lattice-matched quantum cascade lasers with monolithically-integrated resonant nonlinear cascades and modal phase matching.
Milliwatt second harmonic power at 4.45 mm was achieved in InP lattice-matched quantum cascade lasers with monolithically- integrated resonant nonlinear cascades and modal phase-matching.
Milliwatt second harmonic power at 4.45 mm was achieved in InP lattice-matched quantum cascade lasers with monolithically-integrated resonant nonlinear cascades and modal phase-matching.
The statistical model based approach for enhancing noisy speech proposed in [1]-[3], comprises the estimation of the unknown probability distributions (PD's) of the speech signal and the noise proc
