Conference Agenda

Topical Meetings and Sessions:

TOM 1 - Silicon Photonics and Guided-Wave Optics
TOM 2 - Computational, Adaptive and Freeform Optics
TOM 3 - Optical System Design, Tolerancing and Manufacturing
TOM 4 - Bio-Medical Optics
TOM 5 - Resonant Nanophotonics
TOM 6 - Optical Materials: crystals, thin films, organic molecules and polymers, syntheses, characterization and devices
TOM 7 - Thermal radiation and energy management
TOM 8 - Nonlinear and Quantum Optics
TOM 9 - Optics at Nanoscale (ONS)
TOM 10 - Optical Microsystems (OMS)
TOM 11 - Waves in Complex Photonic Media
TOM 12 - Optofluidics
TOM 13 - Ultrafast Optical Technologies and Applications
TOM 14 - Advances and Applications of Optics and Photonics
EU Project Session
Early Stage Researcher Session organised by SIOF
Grand Challenges of Photonics Session

More information on the Topical Meetings

Select a date or location to show only sessions at that day or location. Select a single session for detailed view (with abstracts and downloads when you are logged in as registered attendee). Plenary speeches, tutorials, and Early Researcher session will be updated very soon. Thank you for your patience!

Please note that all times are shown in the time zone of the conference. The current conference time is: 29th June 2022, 08:06:01 CEST

 
 
Session Overview
Session
TOM13 S03: Ultrafast: Ultrafast OPAs and OPOs
Time:
Monday, 13/Sept/2021:
14:00 - 15:45

Session Chair: Piotr Maslowski, Nicolaus Copernicus University, Poland
Location: Aula 1
1st floor

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Presentations
14:00 - 14:30
Invited
ID: 373 / TOM13 S03: 1
TOM 13 Ultrafast Optical Technologies and Applications

Sub-cycle waveform synthesis with optical parametric amplifiers

Giulio Maria Rossi1,2, Roland E. Mainz1,2, Yudong Yang1,2, Fabian Scheiba1,2, Miguel A. Silva-Toledo1,2, Giovanni Cirmi1,2, Franz X. Kärtner1,2

1Center for Free-Electron Laser Science, Deutsches Elektronen-Synchrotron DESY, Notkestraße 85, 22607 Hamburg, Germany; 2Physics Department and The Hamburg Centre for Ultrafast Imaging, University of Hamburg, Luruper Chaussee 149, 22761 Hamburg, Germany

We recently demonstrated the coherent synthesis of different phase-stable pulses generated via optical parametric amplifiers (OPAs) with mJ-level energy. The multi-octave spanning bandwidth covered by OPAs, jointly with an advanced phase-control scheme, allow for the synthesis of tailored non-sinusoidal optical waveforms whose duration shrinks below a single optical cycle. Adapting the so-called parametric waveform synthesis (PWS) technology to different pump lasers will allow to further scale energy and average power, making PWS the ideal tool for controlling strong-field light-matter interactions.



14:30 - 14:45
ID: 232 / TOM13 S03: 2
TOM 13 Ultrafast Optical Technologies and Applications

53-W ultrafast non-collinear near-degenerate optical parametric oscillator

Lukas Lang, Carolin P. Bauer, Christopher R. Phillips, Ursula Keller

ETH Zürich, Switzerland

We present a non-collinear linear-cavity optical parametric oscillator delivering 53 W around 1030 nm with a 10.2-MHz repetition-rate and sub-picosecond pulses. The system is pumped by a frequency doubled high-power SESAM-modelocked thin-disk laser.



14:45 - 15:00
ID: 359 / TOM13 S03: 3
TOM 13 Ultrafast Optical Technologies and Applications

Two ultra-broadband OPOs in the visible spectral range

Robin Mevert1,2, Yuliya Binhammer1,2, Christian M Dietrich1,2, Luise Beichert1,2, Jintao Fan1,2, Thomas Binhammer3, Uwe Morgner1,2

1Leibniz University of Hannover, Institute of Quantum Optics, Welfengarten 1, D-30167 Hannover, Germany; 2Cluster of Excellence PhoenixD, Welfengarten 1, D-30167 Hannover, Germany; 3neoLASE GmbH, Hollerithallee 17, D-30419 Hannover, Germany

Two optical parametric oscillator systems are introduced that offer ultra-broadband tunability across the visible spectral range with femtosecond pulse durations and substantial output power. Both are based on BBO in the non-collinear phase matching geometry (NOPO). The first one is pumped in the deep blue and emits directly in the visible, the second one is pumped in the green, emits in the NIR and is converted to the visible via an intracavity sum-frequency process.



15:00 - 15:15
ID: 401 / TOM13 S03: 4
TOM 13 Ultrafast Optical Technologies and Applications

CEP-stable infrared OPCPA sources

Nicolas Thiré, Raman Maksimenka, Yoann Pertot, José Villanueva, Thomas Pinoteau, Nicolas Forget

FASTLITE, France

We review several optical parametric chirped-pulse (OPCPA) systems designed to achieve extreme carrier-envelope phase (CEP) stability and/or spectral tunability in the infrared. The common architecture of these OPCPAs combines a “self-seeded” difference-frequency stage with active CEP stabilization. We demonstrate the compatibility of this architecture with a set of high-power Ytterbium pump lasers based on different amplification technologies (bulk, rod-type, thin-disk, InnoSlab).



15:15 - 15:45
Invited
ID: 327 / TOM13 S03: 5
TOM 13 Ultrafast Optical Technologies and Applications

How to generate continuously tunable ultrafast optical pulses from 4–12 µm, and applications for this versatile new light source in spectroscopy and sensing

Derryck T Reid1, Luke Maidment3, Oguzhan Kara6, Carl Farrell2, Marius Rutkauskas1, Kerr Johnson2, Jake Charsley1, Pablo Castro1, Yiwen Shi4, Peter G Schunemann5

1Heriot-Watt University, United Kingdom; 2Chromacity Ltd, Edinburgh, United Kingdom; 3ICFO – Institut de Ciencies Fotoniques, Barcelona, Spain; 4University of Electronic Science and Technology of China, Chengdu, China; 5BAE Systems, Nashua, USA; 6ETH Zürich

Amongst the new engineerable semiconductor nonlinear gain materials, orientation-patterned gallium phosphide (OPGaP) is unique in allowing a 1-um laser to pump an OPO that can produce light across the near- and mid-IR regions. Using OPGaP-on-GaP we have demonstrated the generation of ultrafast optical pulses from 4–13 µm, with applications in the spectroscopy of gases, aerosols and powders. Most recently, new OPGaP-on-GaAs technology has allowed us, using fan-out and multi-grating crystals, to achieve gap-free continuous tuning from 4–12 µm.



 
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