QOLO

All-fiber polarization microsensing at the single-photon level quantum.opticsolomouc.org/archives/3592

Our new work in Laser & Photonics Reviews: an all-fiber microsensor measures light polarization at the single-photon level using deep learning. Compact, stable, real-time, and quantum-sensitive. #Wiley doi.org/10.1002/lpor.2… @OpticsOlomouc @TweetMartas

Expanding our optical toolbox: The supercontinuum picosecond laser quantum.opticsolomouc.org/archives/3569

Bringing our research to Day with Quantum at Charles University in Prague quantum.opticsolomouc.org/archives/3525

Our Students at the Summer School in Erice, Sicily quantum.opticsolomouc.org/archives/3515

Our paper "Measurement-device agnostic quantum tomography" was published in Quantum Science and Technology and introduces a new method for self-calibrating the preparation and measurement of quantum states doi.org/10.1088/2058-9… @QuantSciTech @TweetMartas @OpticsOlomouc

Seeing molecules 35 nm apart with a single camera snapshot quantum.opticsolomouc.org/archives/3431

Quantum Olomouc – Celebrating a Century of Quantum Mechanics with High School Students quantum.opticsolomouc.org/archives/3481

QOLO Continues Conference Participation Across Europe and the USA – Quantum Optics Lab Olomouc quantum.opticsolomouc.org/archives/3447

Buňky ve vysokém rozlišení Nově vyvíjená technologie vědců z @prfupol umožní analyzovat buňky bez použití barvicích látek a získávat v reálném čase nanometrově přesné informace o tloušťce a indexu lomu subcelulárních struktur. Více v článku 👇 zurnal.upol.cz/nc/zprava/clan…

Breakthrough in holographic microscopy 🔬 by Jaromír Běhal and @QuantumHedgehog from @UPOlomouc @OpticsOlomouc. Their new method enables accurate, label-free biomedical imaging with incoherent light 🚀 Published in #OPG_Optica @OpticaWorldwide doi.org/pj9k

A new approach to holographic microscopy by Jaromír Běhal & @QuantumHedgehog enables single-shot imaging of subcellular structures without needing coherent light. Unprecedented stability and accuracy. Now in #OPG_Optica @OpticaWorldwide doi.org/pj9k @prfupol @UPOlomouc

The poster sessions at #BQIT:25 with @TweetMartas and a talk by Filip Juráň on Device-agnostic single-emitter super-resolution imaging using deep learning. @OpticsOlomouc @QuantumHedgehog @StarekRobert @DVasinka @QETLabsBristol

My talk on device-agnostic super-resolving imaging from stars to molecules. The project of our great team @DVasinka , Filip Juráň, Jaromír Běhal, and with additional molecular data by @DostalovaAnezka and Robert Starek. #MLQP #Obergurgl @tu_wien @OpticsOlomouc

3rd Machine Learning and Quantum Physics Workshop in Obergurgl. Great talks, duscussions, and venue. #MLQP #Obergurgl @tu_wien @OpticsOlomouc

3rd Machine Learning and Quantum Physics Workshop started with a talk on representation learning in physics by Gorka Muñoz-Gil #MLQP #Obergurgl @tu_wien @OpticsOlomouc

Session on Specialty Fibers for Quantum Applications at WSOF Prague 2025: great event, thanks for invitation! Presented polarization sensing using intermodal interference in few-mode fibers at single-photon levels.

SPIE OOE 2025 Prague: Photon Counting and Quantum Optics - great oportunity to present our recent results on linearity and scalability of photon counting #SPIE @OpticsOlomouc

Device-agnostic super-resolution imaging from stars to molecules quantum.opticsolomouc.org/archives/3260

We’ve introduced a device-agnostic AI for super-resolution imaging—no calibration required! From molecules to galaxies, our DAMN model reconstructs ultra-high-resolution images. Smarter, faster, & universally adaptable! Read more: arxiv.org/abs/2502.18637 #AI #SuperResolution