Silicon Photonics
Silicon photonics is the modulation, processing detection and generation of light on a CMOS compatible platform. Thus, silicon photonic chips can cost-effectively meet the ever increasingly data and bandwidth demands of a worldwide internet, growing with an annual rate of 20-30%. According to a 2018 report [1], the silicon photonics market, today mainly driven by data center demands but with numerous other applications like communications, autonomous driving and sensing, is at the very beginning of massive deployment. Due to the CMOS compatibility, a co-integration of optical and electrical signal processing on one single platform enables ultra-high data rate transmitter modules for data center, or even on chip communications, Tera-samples per second digital-to-analog and analog-to-digital converters, arbitrary waveform generators and many more. On the device level, the strong confinement of the waves in nano-waveguides shows very interesting properties, which enable acoustic lasers, a strong interaction between light and sound waves, integrated frequency combs, optical signal processing, integrated sensors and many other fascinating applications. Leading experts in the field from all over the world will give captivating talks about the state of the art and latest developments in this exciting field.
[1] http://www.yole.fr/SiPhotonics_MarketStatus.aspx#.W0oREtIzY2w
Diamond Photonics
Diamond photonics in general is the physical science of photon generation, detection, and manipulation through emission, transmission, modulation, signal processing, switching, amplification, and sensing based on diamond or on nano-diamond. Diamond possesses remarkable physical and chemical properties, high mechanical hardness, large Young´s module and high thermal conductivity. In addition to that, it enters more and more also the quantum optics´ stage. Diamond has a wide transparency window from the ultraviolet to the infrared spectral range, has a high refractive index and it may contain a variety of defect centres. Therefore, diamond is a very interesting and promising material for many applications, from which the fields of quantum information, quantum optics and quantum radiometry belong to the most exciting ones.
In this workshop, we will focus on the fabrication, characterization and application of colour centres in (nano-) diamond for the above-mentioned applications. Top level presentations by outstanding experts on this field will be given on the state-of-the-art and recent developments.
SCHEDULE Silicon Photonics (21.03.2019)
Electronic-Photonic Integrated Circuits for Transceiver in a Chip
Dr. Stefan Meister
Sicoya GmbH, Germany
Electronic-Photonic Circuits for Communications and Metrology
Prof. Dr. Christoph Scheytt
Heinz Nixdorf Institute
Paderborn University, Germany
Hybrid Silicon-chalcogenide Photonics in the NIR
Prof. Dr. Jeremy Witzens
Institute of Integrated Photonics
RWTH Aachen University, Germany
Harnessing Brillouin Interactions in Silicon Photonics
Prof. Dr. Peter Rakich
Department of Applied Physics
Yale University, USA
Integrated Brillouin Scattering for RF Photonics
Prof. Dr. David Marpaung
Faculty of Science and Technology
University of Twente, The Netherlands
1x8 Silicon-photonic Wavelength-division Multiplexer
with 17 GHz Channel Spacing
Prof. Dr. Avi Zadok
Faculty of Engineering
Bar-Ilan University, Israel
Non-volatile Integrated Photonic Devices
Based on Si-GST Hybrid Waveguides
Prof. Dr. Linjie Zhou
School of Electronic Information and Electrical Engineering
Shanghai Jiao Tong University, China
CMOS Compatible Photonic Devices
for Classical and Non-classical Computing
Prof. Dr. Kambiz Jamshidi
Institute of Communication Technology
Technische Universität Dresden, Germany
Rigorous Characterisation of Silicon Photonic Devices
Prof. Dr. Azizur Rahman
School of Mathematics, Computer Science & Engineering
Department of Electrical & Electronic Engineering
City, University of London
SCHEDULE Diamond Photonics (22.03.2019)
Hybrid Integration of Single Solid-State Quantum Emitters
for Applications in Quantum Technology
Prof. Dr. Oliver Benson
Department of Physics
Humboldt-University Berlin, Germany
Novel Single-photon Emitters in Diamond
for Quantum Technology
Dr. Paolo Traina
Istituto Nazionale di Ricerca Metrologica, Italy
Fabrication and Control of Color Centers in Diamond
for Single-photon Generation and Quantum Enhanced Sensing
Dr. Jacopo Forneris
Istituto Nazionale di Fisica Nucleare, Italy
Single Photons from Color Centers in Diamond:
Basics and Applications
Prof. Dr. Christoph Becher
Quantum Optics Group
Saarland University, Germany
Single-photon Sources as New Quantum Standards:
Recent Developments
Dr. Beatrice Rodiek, Prof. Dr. Stefan Kück
Physikalisch-Technische Bundesanstalt (PTB), Germany
Heteroepitaxial Diamond Wafers: Recent Progress
in material Synthesis and Future Potential in Photonics
Dr. Matthias Schreck
Institute of Physics
Augsburg University, Germany
SiV-family Defects in Diamond as a Novel Qubit Candidates
Dr. Petr Siyushev
Institute of Quantum Optics
Ulm University, Germany
Optical Nonlinearities at the Single Photon Level
Prof. Dr. Stephan Götzinger
Friedrich-Alexander-University of Erlangen Nürnberg
and Max Planck Institute for the Science of Light, Germany
Suspended Nanocrystalline Diamond Waveguide Platform
for Applications in Infrared Integrated Photonics
Dr. Maziar Nezhad
School of Electronic Engineering
Bangor University, UK
Hinweise zur Teilnahme:
Weitere Informationen zum Programm und zur Anmeldung erhalten Sie unter dem unten angegebenem Link
Termin:
21.03.2019 ab 10:00 - 22.03.2019 17:00
Anmeldeschluss:
15.03.2019
Veranstaltungsort:
Physikalisch-Technische Bundesanstalt (PTB), Bundesallee 100
38116 Braunschweig
Niedersachsen
Deutschland
Zielgruppe:
Wirtschaftsvertreter, Wissenschaftler
E-Mail-Adresse:
Relevanz:
international
Sachgebiete:
Chemie, Elektrotechnik, Informationstechnik, Maschinenbau, Physik / Astronomie
Arten:
Konferenz / Symposion / (Jahres-)Tagung, Seminar / Workshop / Diskussion
Eintrag:
04.12.2018
Absender:
Dr.-Ing. Thomas Fahlbusch
Abteilung:
Marketing und Kommunikation
Veranstaltung ist kostenlos:
nein
Textsprache:
Englisch
URL dieser Veranstaltung: http://idw-online.de/de/event62304
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