-
Picture: CC BY 4.0 DEED / Bearbeitung TU DarmstadtPicture: CC BY 4.0 DEED / Bearbeitung TU Darmstadt
Detecting mysterious dark matter with atomic clouds
2024/03/07
Publications in special issue of AVS Quantum Science
-
Picture: Klaus MaiPicture: Klaus Mai
1,000 atomic qubits and rising
2024/02/28
A new record for atom-based quantum computers
Making quantum systems more scalable is one of the key requirements for the further development of quantum computers because the advantages they offer become increasingly evident as the systems are scaled up. Researchers at TU Darmstadt have recently taken a decisive step towards achieving this goal. The results of their research have now been published in a prestigious publication.
-
Picture: APQPicture: APQ
Research at TU Darmstadt selected as breakthrough in optics in 2023
2023/12/04
Scientists at TU Darmstadt extend research on quantum computing to new dimension
December of each year, OPTICA, the U.S. optical society, selects scientific breakthroughs of particular interest to the broad optics community that have emerged over the past year. In this year, research conducted in the group of Prof. Gerhard Birkl at the Institute of Applied Physics at Technische Universität Darmstadt has been highlighted in this exclusive list. The special issue “Optics in 2023” of the journal „Optics & Photonics News” (OPN) reports on work conducted by Malte Schlosser, Dominik Schäffner, and their colleagues, towards advancing unique architectures for quantum computing and quantum simulation.
-
Picture: Walter OppelPicture: Walter Oppel
Images as if by magic
2023/11/03
Research of the Experimental Solid State Quantum Optics Group
Quantum physics enables a new form of imaging that could make cancer diagnostics more precise. Physicists from Darmstadt, Jena and Barcelona have made quantum imaging more resilient to noise which may pave the way for practical applications such as in medicine.
-
Picture: Andreas BuhrPicture: Andreas Buhr
Theoretische Quantenoptik, Quantendynamik und experimentelle Anwendung in der Kernphysik
2023/11/17
Prof. Dr. E. Giese, Prof. Dr. R. Walser, Prof. Dr. W. Nörtershäuser
Attraktive Physik – Einblick in die vielfältige Forschungslandschaft am Fachbereich Physik
-
Picture: Andreas BuhrPicture: Andreas Buhr
Laseranwendungen in der Kernphysik & extreme Materie
2023/11/10
Prof. Dr. V. Bagnoud, Prof. Dr. S. Kuschel, Prof. Dr. M. Roth
Attraktive Physik – Einblick in die vielfältige Forschungslandschaft am Fachbereich Physik
-
Picture: Andreas BuhrPicture: Andreas Buhr
Nichtlineare Optik, hybride Quantensysteme und ultrakalte Quantengase
2023/11/24
Prof. Dr. T. Halfmann, Prof. Dr. B. Urbaszek, Prof. Dr. J. Braun
Attraktive Physik – Einblick in die vielfältige Forschungslandschaft am Fachbereich Physik
-
Picture: Andreas BuhrPicture: Andreas Buhr
Experimentelle Quantenoptik
2024/02/09
Prof. Dr. G. Birkl, Prof. Dr. M. Gräfe, Prof. Dr. T. Walther
Attraktive Physik – Einblick in die vielfältige Forschungslandschaft am Fachbereich Physik
-
Picture: Katrin BinnerPicture: Katrin Binner
SATURDAY MORNING PHYSICS
2023/08/30
Fünf Veranstaltungen vom 11. November bis 9. Dezember 2023
Spannende Veranstaltungsreihe für Oberstufenschüler*innen (German version only)
-
Picture: Katrin BinnerPicture: Katrin Binner
Optical effect advances quantum computing with atomic qubits to a new dimension
2023/06/01
Publication in Physical Review Letters
Quantum computers might be able to crack currently unsolvable tasks, but it is not easy to expand them to the necessary size. A new technique from a team of Darmstadt physicists could overcome this hurdle.