Preliminary Program - Dissipative Phases of Entangled Quantum Matter
Please note that the program is scheduled to run on German time. Talks will be 20 minutes +10 minutes for questions, and contributed talks 8 minutes + 2 minutes for questions.
Monday, May 3rd |
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Afternoon Session Chair: Jamir Marino |
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13:45 - 14:00 | Opening Remarks |
14:00 – 14:30 | Sebastian DIEHL, Köln Measurement induced phase transitions in monitored fermion systems |
14:30 – 15:00 | Rosario FAZIO, ICTP Dissipative transitions in Floquet-Lindblad systems |
15:00 – 15:30 | Giulia SEMEGHINI*, Harvard Exploring new scientific frontiers with programmable atom arrays |
15:30 – 16:00 | Coffee Break |
16:00 – 16:30 | Artur WIDERA*, TU Kaiserslautern Nonequilibrium dynamics of quantum gases in time-dependent disorder |
16:30 – 17:00 | Michael FLEISCHHAUER, University Kaiserslautern Nonlinear transport of Rydberg excitations: From topolopgical lattice hamiltonians to emerging gauge fields |
17:00 – 17:30 | Coffee Break |
Evening Session Chair: Gil Refael |
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17:30 – 18:00 | Ehud ALTMAN, Berkeley Symmetry enriched phases of quantum circuits |
18:00 – 18:30 | Katarzyna MACIESZCZAK, Cambridge Classical metastability in open quantum systems |
18:30 – 19:00 | Ramasubramanian CHITRA, ETH Zürich Anomalous dissipative transitions |
19:00 – 19:30 | Coffee Break |
19:30 – 20:00 | Giuseppe CARLEO, EPFL Simulations of driven and open quantum systems with neural-network quantum states |
20:00 – 20:30 | Aashish CLERK, Chicago Driven-dissipative quantum systems and hidden time-reversal symmetries |
20:30 – 21:00 | Zala LENARČIČ, Jozef Stefan Institute Critical behavior near the many-body localization transition in driven open systems |
*featured talks with SFB QuCoLiMa
Tuesday, May 4th |
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Afternoon Session Chair: Zala Lenarčič |
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13:00 – 16:30 | Young Scholars Session |
16:30 – 17:00 | Coffee Break |
Evening Session Chair: Joel Moore |
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17:00 – 17:30 | Eugene DEMLER, Harvard Nonperturbative approach to ultrastrong coupling waveguide quantum electrodynamics |
17:30 – 18:00 | Silvia VIOLA KUSMINSKIY, MPI Erlangen Cavity Magnonics |
18:00 – 18:30 | Yaroslav TSERKOVNYAK, UCLA Topological Transport of Deconfined Hedgehogs in Magnets |
18:30 – 19:00 | Coffee Break |
19:00 – 19:30 | Prineha NARANG, Harvard Ab initio Approaches to Non-Equilibrium Dynamics in Quantum Matter |
19:30 – 20:00 | Achim ROSCH, Köln Archimedean screw and time quasicrystals in driven chiral magnets |
20:00 – 20:30 | Coffee Break |
20:30 – 21:30 | Iacopo CARUSOTTO, INO-CNR BEC, Steve GIRVIN, Yale University, Alexey GORSHKOV, University of Maryland Roundtable on Dissipation and quantum technologies |
Wednesday, May 5th |
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Afternoon Session Chair: Ferdinand Schmidt-Kaler |
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14:00 – 14:30 | Alicia KOLLÁR, University of Maryland Engineering Qubit-Qubit Interactions in Circuit QED Lattices |
14:30 – 15:00 | Martin ECKSTEIN, FAU Erlangen-Nürnberg Non-equilibrium steady-state description of photo-induced orders in Mott insulators |
15:00 – 15:30 | Francesco PIAZZA, MPIPKS Fermi polaron laser in two-dimensional semiconductors |
15:30 – 16:00 | Coffee Break |
16:00 – 16:30 | Giovanna MORIGI, Saarland University Criticality, Entanglement and topology of self-organized phases in many body cavity quantum electrodynamics |
16:30 – 17:00 | Tobias DONNER, ETH Zürich An emergent atom pump driven by global dissipation in a quantum gas |
17:00 – 17:30 | Coffee Break |
Evening Session Chair: Giovanna Morigi |
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17:30 – 18:00 | Ulrich POSCHINGER, Mainz Trapped ions: A versatile experimental platform for few-body quantum physics |
18:00 – 18:30 | David WELD, UC Santa Barbara Experimental realization of the many-body quantum kicked rotor |
18:30 – 19:00 | Berislav BUCA, Oxford Non-stationary quantum many-body dynamics |
19:00 – 19:30 | Coffee Break |
19:30 – 20:00 | Ben LEV, Stanford University An Optical Lattice with Sound |
20:00 – 20:30 | Kushal SEETHARAM, MIT Correlation engineering via non-local dissipation |
20:30 – 21:00 | Coffee Break |
21:00 – 22:00 | Jonathan KEELING, University of St. Andrews, Walter STRUNZ, TU Dresden Roundtable on Adiabatic elimination: Effective density matrix equations of motion |