Maurizio Burla

Last Name

Burla

First Name

Maurizio

ORCID

0000-0003-1189-4639

Organisational unit

01209 - Lehre Inf.technologie u. Elektrotechnik

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Publications 1 - 10 of 52

Ultrafast Beam Steering Enabled by Photonics & Plasmonics
Leuthold, Juerg; Bonjour, Romain; Salamin, Yannick; et al. (2018)
OSA Technical Digest ~ Optical Fiber Communication Conference
Electrically Tunable Graphene Organic Hybrid Ring Resonators
Ma, Ping; Zhang, X.Z.; Heni, Wolfgang; et al. (2021)
2021 IEEE Photonics Conference (IPC)
Low-Loss Graphene Organic Hybrid Phase Modulators
Ma, Ping; Zhang, Xinzhi; Heni, Wolfgang; et al. (2022)
OSA Technical Digest ~ Conference on Lasers and Electro-Optics
Ultra-short, low-loss graphene-organic hybrid phase modulators are introduced. 20 Gbit/s PAM-2 and PAM-4 data modulation are demonstrated with devices of 25 μm length and on-chip losses of 0.86 dB
aCryComm: attojoule cryogenic communication
Cherchi, Matteo; Govenius, Joonas; Hassel, Juha; et al. (2021)
Proceedings of SPIE ~ Optical Interconnects XXI
All envisaged practical implementations of cryogenic processors, including quantum computers and classical processors based on single flux quantum (SFQ) signals, require massive data transfer from and to classical high performance computers (HPCs). Cryogenic computing has recently become a very hot topic, including superconducting quantum computers (QCs), and classical processors based on single flux quantum (SFQ) signals. All envisaged practical implementations of cryogenic processors require massive data transfer from and to classical HPCs. The project aCryComm aims to develop building blocks for cryogenic photonics interconnects and eventually enable this challenging data transfer. The long-term goal is the development of an open-access platform to integrate classical optical interfaces based on low-loss silicon photonics, plasmonics, and nano light sources together with superconducting photonic and electronic devices, including SFQ-based co-processors for HPCs and for QCs.
Nonlinear Distortions in Plasmonic Mach-Zehnder Modulators
Burla, Maurizio; Heni, Wolfgang; Hoessbacher, Claudia; et al. (2018)
2018 International Topical Meeting on Microwave Photonics (MWP)
Plasmonics for Next-Generation Wireless Systems
Burla, Maurizio; Bonjour, Romain; Salamin, Yannick; et al. (2018)
Proceedings of the 2018 IEEE/MTT-S International Microwave Symposium (IMS)
Radically novel approaches will be needed to support the 1,000 times increase in data rates expected from next-generation wireless communications (5G). Integrated microwave photonics (IMWP) techniques have been identified as an enabling technology for 5G, as they have the potential to improve the performance of electronics by leveraging the broadband characteristics and flexibility of operation of photonic integrated circuits. Important applications of IMWP are optical signal generation and distribution of mm-waves towards antenna terminals, frequency-reconfigurable filtering, optical control of antenna arrays, and more. The rapidly growing field of plasmonics has shown a breakthrough in performance for optical modulators with ultra-fast operation and ultra-compact footprint (10s μm 2 ). This paper reports recent achievements on the use of integrated plasmonic devices for millimeter-wave signal conversion and processing for next-generation wireless systems.
Towards on-chip photonic-assisted radio-frequency spectral measurement and monitoring
Romero Cortés, Luis; Onori, Daniel; de Chatellus, Hugues Guillet; et al. (2020)
Optica
Precise detection and monitoring of the frequency spectrum of microwave signals are essential to myriad scientific and technological disciplines, including both civil and defense areas, such as telecommunications, radar, biomedical instrumentation, radio astronomy, etc. Historically, microwave engineering has provided solutions for these tasks. However, current radio-frequency (RF) technologies suffer from inherent shortcomings that limit their capability to provide agile (e.g., real-time) measurements over a large operation bandwidth in energy-efficient and compact (e.g., integrated) formats. Overcoming these limitations is key to fulfilling pressing performance requirements in the above-mentioned application fields, as well as for compatibility with platforms that require chip-scale integration and/or low weight and dimensions, such as satellites and drones. Integrated microwave photonics is an emerging field that leverages the advantages of optical technologies for realization of microwave operations with high bandwidth, low power consumption, and increased agility and flexibility in on-chip platforms, offering an alternative path for integration of advanced RF processing and analysis methods in mature semiconductor technologies. This mini review surveys some of the latest advances in microwave spectral measurement and monitoring techniques realized through photonic approaches, with a special focus on methods suitable for on-chip integration.
Plasmonic Modulators for Microwave Photonics Applications
Burla, Maurizio; Bonjour, Romain; Salamin, Yannick; et al. (2017)
Asia Communications and Photonics Conference, ACP
Photonic Hilbert transformer based on laterally apodized waveguide Bragg gratings on a SOI wafer
Bazargani, Hamed P.; Burla, Maurizio; Azaña, José (2016)
OSA Technical Digest ~ 2016 Conference on Lasers and Electro-Optics (CLEO)
Agile photonic generation of arbitrary RF chirped waveforms
de Chatellus, Hugues Guillet; Romero Cortés, Luis; Burla, Maurizio; et al. (2017)
OSA Technical Digest ~ 2017 Conference on Lasers and Electro-Optics (CLEO)

Publications 1 - 10 of 52

Maurizio Burla

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