Publications

2023

[13] "Subcycle tomography of quantum light", Geehyun Yang, Matthias Kizmann, Alfred Leitenstorfer, Andrey S. Moskalenko, arXiv:2307.12812  (2023).  [link]

[12] "Qubit entanglement generated by classical light driving an optical cavity", Seongjin Ahn, Andrey S. Moskalenko, Vladimir Y. Chernyak, Shaul Mukamel, arXiv:2306.10436 (2023).  [link]

[11] "The 2023 Terahertz Science and Technology Roadmap", Alfred Leitenstorfer, Andrey S Moskalenko, Tobias Kampfrath, Junichiro Kono, Enrique Castro-Camus, Kun Peng, Naser Qureshi, Dmitry Turchinovich, Koichiro Tanaka, Andrea Markelz, Martina Havenith, Cameron Hough, Hannah J Joyce, Willie Padilla, Binbin Zhou, Ki-Yong Kim, Xi-Cheng Zhang, Peter Uhd Jepsen, Sukhdeep Dhillon, Miriam Serena Vitiello, Edmund H Linfield, Alexander Giles Davies, Matthias Hoffmann, Roger Lewis, Masayoshi Tonouchi, Pernille Klarskov, Tom Seifert, Yaroslav Gerasimenko, Dragan D Mihailovic, Rupert Huber, Jessica Boland, Oleg Mitrofanov, Paul Dean, Brian Ellison, Peter Huggard, Simon Rea, Christopher Walker, David Leisawitz, Jian Rong Gao, Chong Li, Qin Chen, Gintaras Valusis, Vincent Patrick Wallace, Emma MacPherson, Xiaobang Shang, Jeffrey Hesler, Nick Ridler, Cyril Renaud, Ingmar Kallfass, Tadao Nagatsuma, Axel Zeitler, Don Arnone, Michael Johnston, John Cunningham , Journal of Physics D: Applied Physics 56 (2023).  [link]

[10] "Back action in quantum electro-optic sampling of electromagnetic vacuum fluctuations", T. L. M. Guedes, I. Vakulchyk, D. V. Seletskiy, A. Leitenstorfer, A. S. Moskalenko, Guido Burkard, Physical Review Research 5, 013151 (2023).  [link]

[9] "Self-referenced subcycle metrology of quantum fields", Sinan Gündoğdu,  Stéphane Virally,  Marco Scaglia,  Denis V. Seletskiy,  Andrey S. Moskalenko, Laser & Photonics Reviews 17, 2200706 (2023).  [link]

2022

[8] "Realizing an Unruh-DeWitt detector through electro-optic sampling of the electromagnetic vacuum", Sho Onoe, Thiago L. M. Guedes, Andrey S. Moskalenko, Alfred Leitenstorfer, Guido Burkard, Timothy C. Ralph, Physical Review D 105, 056023  (2022).  [link]

[7] "Quantum susceptibilities in time-domain sampling of electric field fluctuations", Matthias Kizmann, Andrey S Moskalenko, Alfred Leitenstorfer, Guido Burkard, Shaul Mukamel , Laser & Photonics Reviews 16, 2100423 (2022). [link]

2021

[6] "Dips in high-order harmonics spectra from a subcycle-driven two-level system reflected in the negativity structure of the time-frequency Wigner function", Seongjin Ahn, Andrey S. Moskalenko, Journal of Computational Electronics 20, 2107 (2021). [link]

[5] "Quasiclassical theory of non-adiabatic tunneling in nanocontacts induced by phase-controlled ultrashort light pulses ", Sangwon Kim, Tobias Schmude, Guido Burkard, Andrey S. Moskalenko , New Journal of Physics 23, 083006 (2021). [link]

2020

[4] "Determination of the electric field and its Hilbert transform in femtosecond electro-optic sampling", P. Sulzer, K. Oguchi, J. Huster, M. Kizmann, T. L. M. Guedes, A. Liehl, C. Beckh, A. S. Moskalenko, G. Burkard, D. V. Seletskiy, and A. Leitenstorfer , Physical Review A 101, 033821 (2020). [link]

2019

[3] "Subcycle squeezing of light from a time flow perspective", M. Kizmann, T. L. M. Guedes, D. V. Seletskiy, A. S. Moskalenko , A. Leitenstorfer and G. Burkard , Nature Physics 15, 960 (2019). [link]

[2] "Correlations detected in a quantum vacuum", A. S. Moskalenko  and T. C. Ralph, Nature 568, 178 (2019). [link]

[1] "Spectra of Ultrabroadband Squeezed Pulses and the Finite-Time Unruh-Davies Effect", T. L. M. Guedes , M. Kizmann, D. V. Seletskiy, A. Leitenstorfer, Guido Burkard, A. S. Moskalenko, Physical Review Letters 122, 053604 (2019). [link]