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SUMMARY:Microwave quantum photonics with superconducting circuits: from en
 gineered light-matter interactions to quantum many-body physics
DTSTART:20180410T080000
DTEND:20180410T090000
DTSTAMP:20260406T194644Z
UID:d4fbf7beffddca375acdbc9de2b47f8436b8c9a28751d944da024959
CATEGORIES:Conferences - Seminars
DESCRIPTION:Dr Simone Gasparinetti\, ETH Zurich\nAbstract: In the last f
 ifteen years\, the rise of superconducting circuits in the context of quan
 tum information processing has given birth to the field of microwave quant
 um photonics. This newborn field facilitates the study of light-matter int
 eractions in extreme regimes and with an unprecedented degree of control a
 nd tunability. At the same time\, it holds promise for quantum communicati
 on\, enabling deterministic quantum state transfer and remote entanglement
  between nodes of a quantum network\,  and quantum simulation\, thanks\, 
 for instance\, to the possibility of synthesizing tunable long-range inter
 actions mediated by superconducting waveguides with engineered dispersion.
  I will briefly review the state of the art of the field and discuss some 
 of our recent contributions to it\, including the on-chip generation and r
 outing of single and correlated microwave photons\, the realization of a m
 icrowave-activated coupling based on a cavity-assisted Raman transition\, 
 and the quantum nondemolition detection of itinerant microwave photons bas
 ed on a conditional phase gate. I will finally present a research agenda f
 or the simulation of quantum many-body systems based on arrays of high-imp
 edance superconducting resonators.
LOCATION:CH G1 495 https://plan.epfl.ch/?room==CH%20G1%20495
STATUS:CONFIRMED
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