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DTSTAMP:20250628T021432Z
UID:4D190BD8-B25E-4975-8FF4-2B219B5CCB06
DTSTART;TZID=America/New_York:20250627T110000
DTEND;TZID=America/New_York:20250627T120000
DESCRIPTION:Abstract: Hybrid quantum systems offer a promising platform to 
 study quantum phenomena that benefit from the individual strengths of thei
 r components. A new emerging hybrid quantum platform composed of spin-dope
 d solid noble gas crystals and superconducting resonators. The noble gas c
 rystals offer a soft\, inert\, predominantly spin-0 host matrix for the at
 omic impurities\, while the alkali atoms have addressable hyperfine transi
 tions in the GHz regime. In my talk\, I will present this novel platform a
 nd demonstrate how to reach the strong coupling regime between the impurit
 y ensemble and the superconducting resonator at mK temperatures for effici
 ent coherent information exchange. I will also show coherence time measure
 ments proving its suitability for quantum applications. At the end of my t
 alk\, I will discuss how this unique architecture can be used for explorin
 g fundamental quantum effects and new technologies.\n\nCo-sponsored by: Pr
 of. Nicolas Quesada\n\nSpeaker(s): Elena\n\nJ. Armand Bombardier J-1035\, 
 Polytechnique Montréal\, Montréal\, Quebec\, Canada\, H3T 1J4
LOCATION:J. Armand Bombardier J-1035\, Polytechnique Montréal\, Montréal\
 , Quebec\, Canada\, H3T 1J4
ORGANIZER:Benjamin.crockett@ieee.org
SEQUENCE:22
SUMMARY:Impurities in Cryogenic Solids for Quantum Sciences
URL;VALUE=URI:https://events.vtools.ieee.org/m/485078
X-ALT-DESC:Description: <br /><div><img src="https://events.vtools.ieee.org
 /vtools_ui/media/display/9a9bd1a7-4acb-40c5-a2a2-b94cf507bcd4" width="927"
  height="547"></div>\n<div>&nbsp\;</div>\n<div><strong>Abstract: </strong>
 Hybrid quantum systems offer a promising platform to study quantum phenome
 na that benefit from the individual strengths of their components. A new e
 merging hybrid quantum platform composed of spin-doped solid noble gas cry
 stals and superconducting resonators. The noble gas crystals offer a soft\
 , inert\, predominantly spin-0 host matrix for the atomic impurities\, whi
 le the alkali atoms have addressable hyperfine transitions in the GHz regi
 me. In my talk\, I will present this novel platform and demonstrate how to
  reach the strong coupling regime between the impurity ensemble and the su
 perconducting resonator at mK temperatures for efficient coherent informat
 ion exchange. I will also show coherence time measurements proving its sui
 tability for quantum applications. At the end of my talk\, I will discuss 
 how this unique architecture can be used for exploring fundamental quantum
  effects and new technologies.</div>
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