Klaus-J. Boller scite author profile

Integrated microwave photonics, an emerging technology combining radio frequency (RF) engineering and integrated photonics, has great potential to be adopted for wideband analog processing applications. However, it has been a challenge to provide photonic integrated circuits with equal levels of function flexibility as compared with their electronic counterparts. Here, we introduce a disruptive approach to tackle this need, which is analogous to an electronic field-programmable gate array. We use a grid of tunable Mach-Zehnder couplers interconnected in a two-dimensional mesh network, each working as a photonic processing unit. Such a device is able to be programmed into many different circuit topologies and thereby provide a diversity of functions. This paper provides, to the best of our knowledge, the first ever demonstration of this concept and shows that a programmable chip with a free spectral range of 14 GHz enables RF filters featuring continuous, over-two-octave frequency coverage, i.e., 1.6-6 GHz, and variable passband shaping ranging from a 55 dB extinction notch filter to a 1.6 GHz bandwidth flat-top filter.

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Low-Loss Si3N4 TriPleX Optical Waveguides: Technology and Applications Overview

Roeloffzen

Hoekman

Klein

et al. 2018

IEEE J. Select. Topics Quantum Electron.

309

183

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An overview of the most recent developments and improvements to the low-loss TriPleX Si 3 N 4 waveguide technology is presented in this paper. The TriPleX platform provides a suite of waveguide geometries (box, double stripe, symmetric single stripe, and asymmetric double stripe) that can be combined to design complex functional circuits, but more important are manufactured in a single monolithic process flow to create a compact photonic integrated circuit. All functionalities of the integrated circuit are constructed using standard basic building blocks, namely straight and bent waveguides, splitters/combiners and couplers, spot size converters, and phase tuning elements. The basic functionalities that have been realized are: ring resonators and Mach-Zehnder interferometer filters, tunable delay elements, and waveguide switches. Combination of these basic functionalities evolves into more complex functions such as higher order filters, beamforming networks,

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Silicon nitride microwave photonic circuits

et al. 2013

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We present an overview of several microwave photonic processing functionalities based on combinations of Mach-Zehnder and ring resonator filters using the high index contrast silicon nitride (TriPleX™) waveguide technology. All functionalities are built using the same basic building blocks, namely straight waveguides, phase tuning elements and directional couplers. We recall previously shown measurements on high spurious free dynamic range microwave photonic (MWP) link, ultra-wideband pulse generation, instantaneous frequency measurements, Hilbert transformers, microwave polarization networks and demonstrate new measurements and functionalities on a 16 channel optical beamforming network and modulation format transformer as well as an outlook on future microwave photonic platform integration, which will lead to a significantly reduced footprint and thereby enables the path to commercially viable MWP systems.

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Hybrid integrated InP-Si₃N₄ diode laser with a 40-Hz intrinsic linewidth

et al. 2020

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We demonstrate a hybrid integrated and widely tunable diode laser with an intrinsic linewidth as narrow as 40 Hz, achieved with a single roundtrip through a low-loss feedback circuit that extends the cavity length to 0.5 meter on a chip. Employing solely dielectrics for single-roundtrip, single-mode resolved feedback filtering enables linewidth narrowing with increasing laser power, without limitations through nonlinear loss. We achieve single-frequency oscillation with up to 23 mW fiber coupled output power, 70-nm wide spectral coverage in the 1.55 µm wavelength range with 3 mW output and obtain more than 60 dB side mode suppression. Such properties and options for further linewidth narrowing render the approach of high interest for direct integration in photonic circuits serving microwave photonics, coherent communications, sensing and metrology with highest resolution.

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Klaus-J. Boller

Observation of electromagnetically induced transparency

Programmable photonic signal processor chip for radiofrequency applications

Low-Loss Si3N4 TriPleX Optical Waveguides: Technology and Applications Overview

Silicon nitride microwave photonic circuits

Hybrid integrated InP-Si₃N₄ diode laser with a 40-Hz intrinsic linewidth

Contact Info

Product

Resources

About

Klaus-J. Boller

Observation of electromagnetically induced transparency

Programmable photonic signal processor chip for radiofrequency applications

Low-Loss Si3N4 TriPleX Optical Waveguides: Technology and Applications Overview

Silicon nitride microwave photonic circuits

Hybrid integrated InP-Si3N4 diode laser with a 40-Hz intrinsic linewidth

Contact Info

Product

Resources

About

Hybrid integrated InP-Si₃N₄ diode laser with a 40-Hz intrinsic linewidth