A.M.J. Koonen

What is he best known for?

The fields of study he is best known for:

• Computer network
• Telecommunications
• Optics

Electronic engineering, Optics, Multi-mode optical fiber, Transmission and Optical fiber are his primary areas of study. His Electronic engineering research includes themes of Wavelength-division multiplexing, Burst switching and Antenna. His research integrates issues of Bit error rate, Modulation and Local oscillator in his study of Optics.

The Multi-mode optical fiber study combines topics in areas such as Optical frequencies, Optical switch, Radio over fiber, Link adaptation and Quadrature amplitude modulation. In his work, Clock recovery is strongly intertwined with Optical performance monitoring, which is a subfield of Transmission. He studied Optical fiber and Intensity modulation that intersect with Pulse-amplitude modulation, Orthogonal frequency-division multiplexing, Baseband and Pulse-width modulation.

His most cited work include:

• Ultra-high-density spatial division multiplexing with a few-mode multicore fibre (289 citations)
• Error-Free 320-Gb/s All-Optical Wavelength Conversion Using a Single Semiconductor Optical Amplifier (192 citations)
• IST-LASAGNE: towards all-optical label swapping employing optical logic gates and optical flip-flops (186 citations)

What are the main themes of his work throughout his whole career to date?

A.M.J. Koonen mostly deals with Electronic engineering, Optics, Optical fiber, Computer network and Transmission. His research in Electronic engineering is mostly focused on Multiplexing. Optics and Quadrature amplitude modulation are frequently intertwined in his study.

His Optical fiber study incorporates themes from Polymer, Optoelectronics, Bit error rate, Orthogonal frequency-division multiplexing and Gigabit. A.M.J. Koonen works mostly in the field of Transmission, limiting it down to concerns involving Signal and, occasionally, Microwave. His research investigates the link between Optical amplifier and topics such as Optical switch that cross with problems in Packet switching and Optical burst switching.

He most often published in these fields:

• Electronic engineering (46.40%)
• Optics (26.43%)
• Optical fiber (19.41%)

What were the highlights of his more recent work (between 2014-2021)?

• Electronic engineering (46.40%)
• Optics (26.43%)
• Wireless (11.83%)

In recent papers he was focusing on the following fields of study:

His primary areas of investigation include Electronic engineering, Optics, Wireless, Optical wireless and Transmission. His studies in Electronic engineering integrate themes in fields like Optical cross-connect, Quadrature amplitude modulation, Modulation and Beam steering. His research investigates the connection with Optical cross-connect and areas like Passive optical network which intersect with concerns in Optical performance monitoring and Computer network.

His work deals with themes such as Photonic integrated circuit, Bandwidth and Upstream, which intersect with Wireless. A.M.J. Koonen has researched Transmission in several fields, including Photonics, Optoelectronics, Core, Optical fiber and Signal. His Optical fiber study which covers Wavelength that intersects with Adaptive beamformer.

Between 2014 and 2021, his most popular works were:

• Advanced Integration Techniques on Broadband Millimeter-Wave Beam Steering for 5G Wireless Networks and Beyond (55 citations)
• Ultralong Haul 1.28-Tb/s PM-16QAM WDM Transmission Employing Hybrid Amplification (27 citations)
• A Multifunctional Photonic Integrated Circuit for Diverse Microwave Signal Generation, Transmission, and Processing (21 citations)

In his most recent research, the most cited papers focused on:

• Computer network
• Telecommunications
• Electrical engineering

His primary scientific interests are in Electronic engineering, Optical wireless, Transmission, Beam steering and Optics. His Electronic engineering research incorporates elements of Photonics, Photonic integrated circuit, Quadrature amplitude modulation, Modulation and Extremely high frequency. In his study, which falls under the umbrella issue of Optical wireless, Optical cross-connect, Optical performance monitoring, Optical modulation amplitude, Optical switch and Optical amplifier is strongly linked to Free-space optical communication.

His research in Transmission focuses on subjects like Optical filter, which are connected to Optical ring resonators, SIMPLE, Computer hardware and Backup. His research on Beam steering also deals with topics like

• Gigabit which is related to area like Passive optical network, Optical fiber, Network planning and design, Pulse-amplitude modulation and Dynamic bandwidth allocation,
• Upstream which connect with Keying, Telecommunications link, Multicast and Light beam,
• Communications system that intertwine with fields like Infrared, Blocking and Radio over fiber. His research is interdisciplinary, bridging the disciplines of Foundry and Optics.

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