Photon.fuw.edu.pl

Photon.fuw.edu.pl

Group page of Quantum Photonics Laboratory @ FUW

Our research

SPECTRAL-TEMPORAL ENGINEERING OF QUANTUM LIGHT

We research the potential of spectral-temporal encoding for the processing of quantum information. Our interests include experimental implementations of multidimensional quantum-enhanced metrology. We explore highly efficient, fiber-compatible quantum cryptography protocols. We look for applications of time-energy entanglement.

PHOTONIC INTERFACES FOR QUANTUM NETWORKS

We experimentally investigate methods for coherent modification of spectro-temporal mode structure of optical pulses at the single photon level. We are building highly efficient electro-optic mode converters for single-photon pulses. We explore the properties of highly dispersive optical media.

With our partners within the NLPQT consortium we are involved in building Quantum Key Distribution links in Poland, including and intericty link between Warsaw and Poznan. This activity is enabled by the nationwide academic fiber network PIONIER.

QUANTUM TEMPORAL FOURIER OPTICS

We explore applications of the concept of time lens and ultrafast all-optical information processing in the field of quantum optics. We explore new opportunities offered by these techniques for quantum information processing. We address technical challenges associated with applying these concepts to non-classical light.

Our publications

Interface between picosecond and nanosecond quantum light pulses
Filip Sośnicki, Michał Mikołajczyk, Ali Golestani, Michał Karpiński
Nature Photonics 17, 761–766 (2023).
You can view the paper here (for personal non-commercial purposes): https://rdcu.be/dcZPW.
An early preprint is available at: https://arxiv.org/abs/2211.05112.
Check out a News&Views summary of our work (by John Donohue) here: https://www.nature.com/articles/s41566-023-01277-y.

Efficient detection of multidimensional single-photon time-bin superpositions
Adam Widomski, Maciej Ogrodnik, Michał Karpiński
arXiv preprint, arXiv:2308.05523 (2023).

Precise on-chip spectral and temporal control of single-photon-level optical pulses
Adam Widomski, Stanisław Stopiński, Krzysztof Anders, Ryszard Piramidowicz, Michał Karpiński
Journal of Lightwave Technology 41, 6255–6262, (2023).

Electro-optic Fourier transform chronometry of pulsed quantum light
Ali Golestani, Alex O. C. Davis, Filip Sośnicki, Michał Mikołajczyk, Nicolas Treps, Michał Karpiński
Physical Review Letters 129, 123605 (2022).
arXiv preprint arXiv:2205.11554
Theory from Paris & Bath, experiment from Warsaw!

Aberration-corrected time aperture of an electro-optic time lens
Sanjay Kapoor, Filip Sośnicki, Michał Karpiński
arXiv preprint, arXiv:2207.07618 (2022).

Control and measurement of quantum light pulses for quantum information science and technology
Michał Karpiński, Alex O. C. Davis, Filip Sośnicki, Valérian Thiel, Brian J. Smith
Advanced Quantum Technologies 4, 2000150 (2021).
Review paper.

Actuator placement optimization for guided waves based structural health monitoring using fibre Bragg grating sensors
Rohan Soman, Kaleeswaran Balasubramaniam, Ali Golestani, Michał Karpiński, Paweł M. Malinowski, Wiesław M. Ostachowicz
Smart Mater. Struct. 30, 125011 (2021).

Aperiodic electro-optic time lens for spectral manipulation of single-photon pulses
Filip Sośnicki, Michał Mikołajczyk, Ali Golestani, Michał Karpiński
Applied Physics Letters 116, 234003 (2020) (featured article).
arXiv preprint arXiv:2004.07195 (2020).

Pure single photons from scalable frequency multiplexing
T. Hiemstra, T. F. Parker, P. Humphreys, J. Tiedau, M. Beck, M. Karpiński, B. J. Smith, A. Eckstein, W. S. Kolthammer, I. A. Walmsley
Phys. Rev. Applied 14, 014052 (2020),
arXiv preprint arXiv:1907.10355 (2020).

A two-step guided waves based damage localization technique using optical fiber sensors
Rohan Soman, Kaleeswaran Balasubramaniam, Ali Golestani, Michał Karpiński, Paweł Malinowski
Sensors 20, 5804 (2020).

Shaking the phase of light
Michał Karpiński
Nature Photonics 13, 306–308 (2019).
News&Views on the recent work from the group of H. X. Tang @ Yale.

Large-scale spectral bandwidth compression by complex electro-optic temporal phase modulation
Filip Sośnicki, Michał Karpiński
Optics Express 26, 31307–31316 (2018).

Measuring the single-photon temporal-spectral wave function
Alex O. C. Davis, Valérian Thiel, Michał Karpiński, Brian J. Smith
Phys. Rev. Lett. 121, 083602 (2018).
arXiv:1709.05248.

Experimental single-photon pulse characterization by electro-optic shearing interferometry
Alex O. C. Davis, Valérian Thiel, Michał Karpiński, Brian J. Smith
Phys. Rev. A. 98, 023840 (2018).
arXiv:1802.07208.

Engineering the spectral and temporal properties of a GHz-bandwidth heralded single-photon source interfaced with an on-demand, broadband quantum memory
Patrick S. Michelberger, Michał Karpiński, Ian A. Walmsley, Joshua Nunn
Journal of Modern Optics 65, 1668–1679 (2018).

Entanglement swapping for generation of heralded time-frequency-entangled photon pairs
Dashiell L. P. Vitullo, Michael G. Raymer, Brian J. Smith, Michał Karpiński, Lasse Mejling, Karsten Rottwitt,
Phys. Rev. A 98, 026836 (2018).
arXiv:1802.00110.

Measurement of radio-frequency temporal phase modulation with chirped optical pulses
Michał Jachura, Jan Szczepanek, Wojciech Wasilewski, Michał Karpiński
Journal of Modern Optics 65, 262–267 (2018).
arXiv:1706.09881.

Bandwidth manipulation of quantum light by an electro-optic time lens
Michał Karpiński, Michał Jachura (equal contribution), Laura J. Wright, Brian J. Smith
Nature Photonics 11, 53 (2017).
arXiv:1604.02459
See also our press release!

Pulsed single-photon spectrograph by frequency-to-time mapping using chirped fiber Bragg gratings
Alex O. C. Davis, Paul M. Saulnier, Michał Karpiński, Brian J. Smith
Optics Express 25, 12804–12811 (2017).
Selected for Spotlight on Optics! Here’s a brief summary of our paper!

Spectral shearing of quantum light pulses by electro-optic phase modulation
Laura J. Wright, Michał Karpiński, Christoph Söller, Brian J. Smith
Physical Review Letters 118, 023601 (2017).
arXiv:1605.00640 (2016).

Quantum mechanical which-way experiment with an internal degree of freedom
Konrad Banaszek, Paweł Horodecki, Michał Karpiński, Czesław Radzewicz
Nature Communications 4, 2594 (2013).
See also our press release!

The group

 

Who we are

We are a young dynamic group within the Optics Division of the Faculty of Physics (FUW) at the University of Warsaw (UW). FUW is a world-class physics research centre covering a broad area of physics and is the leading physics research institution in Poland. It hosts numerous groups both in optics (Ultrafast Phenomena Lab, Quantum Memories Lab, Photonic Nanostructures Facility, Information Optics Lab, Cold Atoms, Femtosecond Spectroscopy) as well as quantum information, quantum metrology, and communications theory. This gives us an ideal setting for our research. Interested in joining us? Please check the Jobs section below!

Our Lab

We work in a state-of-the-art optical lab furnished with cutting-edge equipment. This includes a stable ultra-wide-band (up to 35 GHz) arbitrary electro-optic phase modulation setup, an aperiodic time lens, custom dispersive media (thanks to collaboration with ORC in Southampton, UK), low timing jitter superconducting single-photon-counting detectors, telecom and 1.7 – 2.1 um fs pulsed lasers, photon pair sources and a complex optical spectrum analyser for spectrum and spectral phase measurements. We appreciate the initial support of Konrad Banaszek, Czesław Radzewicz and numerous funding programmes (EU Structural Funds, National Science Centre of Poland ). Our current funding includes a QuantERA grant (together with groups in Germany, Italy, France & UK) and a project funded by the Foundation for Polish Science (FNP) First Team programme — please click here for more details! We are also part of the National Laboratory for Photonics and Quantum technologies – NLPQT infrastructural project which funded our recent equipment purchases. We have recently completed another FNP project — please click here for details.

Main Team
Michał Karpiński

Team leader

Filip Sośnicki

Postdoctoral Researcher

Michał Mikołajczyk

PhD Student

Adam Widomski

PhD Student

Sanjay Kapoor

PhD Student

Jerzy Szuniewicz

PhD Student

Summer students
Prashant Dagale

Summer of 2018

Martin Luttmann

Summer of 2018

Monika Mikulicz

Summer of 2018

Jadwiga Wilkens

Summer of 2019, financed by DAAD

Lyudmila Silantieva

Autumn of 2020, financed by BARI - Baltic Science Network

Cedric Hannemann

Summer of 2021

Karol Piotrowski

Summer of 2023, financed by Candela Fundation

Doğukan Taş

Summer of 2023

Alumni
Ali Golestani

Postdoc at Department of Electrical and Computer Engineering, University of Toronto

Maciek Gałka

Master student,
Obtained his PhD in Cambridge

Dominika Bondar

Working at Fluence.technology

Arifah Nurul Amaliah

Now, working in Vigo Systems

 

Optica International Siegman School on Lasers at the University of Warsaw

We’re back from the fantastic 2022 Siegman School on Lasers, co-organized by our lab, the University of Warsaw and Optica Foundation in Chęciny, Poland. A fantastic week of learning, fun, new friends and ideas! Click here for more photos and check the Optica website for further information. Photo credit: J. …

Contact and jobs

Jobs

We are constantly looking for ambitious Postdocs, PhD, MSc and BSc students. Below you will find information about any open positions in our externally funded projects. You can also join our group by coming with your own funding, or enrolling for the MSc or PhD programmes at the University of Warsaw. Please check our coming with your own funding website for more details!

In particular

Find us

We are located at the Ochota Campus of the University of Warsaw, in the interferometrically stable basement of the Geophysics Building (room 023).
We are a short tram ride from the centre of Warsaw. The Warsaw Chopin Airport is just a 20-minute bus ride away. On sunny days we escape the darkness of the lab to enjoy the adjacent Pole Mokotowskie Park.

🏠 ul. Pasteura 7, 02-093 Warszawa, Poland
(+48) 22 55 32 740 or (+48) 22 55 46 872
✉ photon@fuw.edu.pl