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.
...takes place in the classroom - and anywhere else
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.
In celebration of IQOQI Vienna’s 20th anniversary and the 60th anniversary of Bell’s Theorem, around 150 participants from all over the world gathered for cutting-edge discussions on the theoretical and experimental frontiers of quantum foundations.
Congratulations to Gerard Higgins, who has been awarded one of the prestigious ERC Starting Grants to explore the nature of Dark Matter—an elusive substance that makes up 85% of the Universe's mass but remains one of physics' greatest mysteries! Dark matter may be passing through our laboratories on…
The Simons Science School in Chemistry and Physics was a one-week program for Ukrainian high school students who have excelled at science competitions. The agenda also included a visit to IQOQI-Vienna.
Around 3,000 visitors attended the Long Night of Research at the Campus Akademie of the Austrian Academy of Sciences, where IQOQI Vienna was also stationed.
The standard perspective on subsystems in quantum theory is a bottom-up, compositional one: one starts with individual "small"…
Recent Publications
Programmable multiphoton quantum interference in a single spatial mode Carosini L., V. Oddi, F. Giorgino, L.M. Hansen, B. Seron, S. Piacentini, T. Guggemos, I. Agresti, J.C. Loredo, P. Walther SCI ADV, 10, ARTN eadj0993 (2024)
Experimental superposition of a quantum evolution with its time reverse Stroemberg T., P. Schiansky, M.T. Quintino, M. Antesberger, L.A. Rozema, I. Agresti, C. Brukner, P. Walther PHYSICAL REVIEW RESEARCH, 6, ARTN 023071 (2024)
Lower Bounds on Ground-State Energies of Local Hamiltonians through the Renormalization Group Ilya Kull, Norbert Schuch, Ben Dive, Miguel Navascués Phys. Rev. X, 14, 021008 (2024)
Efficiently Cooling Quantum Systems with Finite Resources: Insights from Thermodynamic Geometry Philip Taranto, Patryk Lipka-Bartosik, Nayeli A. Rodríguez-Briones, Martí Perarnau-Llobet, Nicolai Friis, Marcus Huber, Pharnam Bakhshinezhad arXiv:quant-ph, 2404.06649 [quant-ph] (2024)
Hollow-core fiber loading of nanoparticles into ultra-high vacuum Stefan Lindner, Paul Juschitz, Jakob Rieser, Yaakov Y. Fein, Maxime Debiossac, Mario Ciampini, Markus Aspelmeyer, Nikolai Kiesel Appl. Phys. Lett, 124, 143501 (2024)
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