 |
16:30 |
Q 43.1 |
Building up a two-species Rydberg experiment with a spatially resolving ion detector — •Thomas Schmid, Christian Veit, Nicolas Zuber, Robert Löw, and Tilman Pfau
|
|
|
|
16:30 |
Q 43.2 |
Correlations and many-body dynamics of Rydberg excitations in the anti-blockade regime — •Fabian Letscher, Oliver Thomas, Thomas Niederprüm, Tanita Eichert, Michael Fleischhauer, and Herwig Ott
|
|
|
|
16:30 |
Q 43.3 |
Storage of coherences and single-photon sources via Rydberg state in thermal vapors — •Yi-Hsin Chen, Fabian Ripka, Robert Löw, and Tilman Pfau
|
|
|
|
16:30 |
Q 43.4 |
Towards coherence measurements of Rydberg atoms with all-optical detection — •Lara Torralbo-Campo, Jens Grimmel, Florian Karlewski, Carola Rogulj, and József Fortágh
|
|
|
|
16:30 |
Q 43.5 |
Rydberg P-state-molecules — •Tanita Eichert, Philipp Geppert, Thomas Niederprüm, Oliver Thomas, Torsten Manthey, and Herwig Ott
|
|
|
|
16:30 |
Q 43.6 |
Stable optical lattices for creating and imaging ultracold quantum fluids of potassium — •Emil Pavlov, Stephan Helmrich, Alda Arias, Tobias Wintermantel, and Shannon Whitlock
|
|
|
|
16:30 |
Q 43.7 |
Measurements and numerical calculations of 87Rb Rydberg Stark and Zeeman maps — •Jens Grimmel, Manuel Kaiser, Lara Torralbo-Campo, Markus Mack, Florian Karlewski, and József Fortágh
|
|
|
|
16:30 |
Q 43.8 |
Probing electric fields spatially resolved inside hollow core fibers with Rydberg atoms — •Daniel Weller, Georg Epple, Josephine Gutekunst, Christian Veit, Tilman Pfau, Philip Russel, and Robert Löw
|
|
|
|
16:30 |
Q 43.9 |
The bound and scattering properties in waveguide around Feshbach resonance — •gaoren wang, panagiotis giannakeas, and peter schmelcher
|
|
|
| |
16:30 |
Q 43.10 |
The contribution has been withdrawn.
|
|
|
