We at the Institute for Quantum Optics and Quantum Information – Vienna (IQOQI-Vienna) of the Austrian Academy of Sciences are committed to advancing knowledge and enhancing human understanding of nature and its laws. We also actively pursue the vision of quantum information science and the wide range of new possibilities it would open up for humanity. To this end, we conduct theoretical and experimental research on the foundations of quantum physics and the physics of quantum information and develop new quantum technologies.
We at the Institute for Quantum Optics and Quantum Information – Vienna (IQOQI-Vienna) of the Austrian Academy of Sciences are committed to advancing knowledge and enhancing human understanding of nature and its laws. We also actively pursue the vision of quantum information science and the wide range of new possibilities it would open up for humanity. To this end, we conduct theoretical and experimental research on the foundations of quantum physics and the physics of quantum information and develop new quantum technologies.
We at the Institute for Quantum Optics and Quantum Information – Vienna (IQOQI-Vienna) of the Austrian Academy of Sciences are committed to advancing knowledge and enhancing human understanding of nature and its laws. We also actively pursue the vision of quantum information science and the wide range of new possibilities it would open up for humanity. To this end, we conduct theoretical and experimental research on the foundations of quantum physics and the physics of quantum information and develop new quantum technologies.
We at the Institute for Quantum Optics and Quantum Information – Vienna (IQOQI-Vienna) of the Austrian Academy of Sciences are committed to advancing knowledge and enhancing human understanding of nature and its laws. We also actively pursue the vision of quantum information science and the wide range of new possibilities it would open up for humanity. To this end, we conduct theoretical and experimental research on the foundations of quantum physics and the physics of quantum information and develop new quantum technologies.
We at the Institute for Quantum Optics and Quantum Information – Vienna (IQOQI-Vienna) of the Austrian Academy of Sciences are committed to advancing knowledge and enhancing human understanding of nature and its laws. We also actively pursue the vision of quantum information science and the wide range of new possibilities it would open up for humanity. To this end, we conduct theoretical and experimental research on the foundations of quantum physics and the physics of quantum information and develop new quantum technologies.
Physicists at IQOQI Vienna and the University of Vienna were able to reverse the temporal evolution of a single photon using a universal rewinding protocol.
Physicists at IQOQI Vienna have shown a one-to-one connection between the quality of an imperfect quantum reference frame, cast in terms of the asymmetry it induces on a system of interest, and the entanglement between the two.
Do you feel that there are fundamental questions in quantum information theory which are not receiving enough attention? Is there a technical difficulty that you encounter over and over in the course of your research?
Microelectronic readout of a diamond quantum sensor Daniel Wirtitsch, Georg Wachter, Sarah Reisenbauer, Johannes Schalko, Ulrich Schmid, Andrea Fant, Luca Sant, Michael Trupke arXiv:quant-ph, 2403.03090 [quant-ph] (2024)
Macroscopic quantum entanglement between an optomechanical cavity and a continuous field in presence of non-Markovian noise S. Direkci, K. Winkler, C. Gut, K. Hammerer, M. Aspelmeyer, Y. Chen Phys. Rev. Research, 6, 013175 (2024)
Identification is Pointless: Quantum Reference Frames, Localisation of Events, and the Quantum Hole Argument Viktoria Kabel, Anne-Catherine de la Hamette, Luca Apadula, Carlo Cepollaro, Henrique Gomes, Jeremy Butterfield, Časlav Brukner arXiv:quant-ph, 2402.10267 [quant-ph] (2024)
Photonic entanglement during a zero-g flight Julius Bittermann, Lukas Bulla, Sebastian Ecker, Sebastian P. Neumann, Matthias Fink, Martin Bohmann, Nicolai Friis, Marcus Huber, Rupert Ursin Quantum, 8, 1256 (2024)
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