Slow and stored light via electromagnetically induced transparency using a superconducting artificial atom

Prof. Yung-Fu Chen - Dept. of Physics, NCU

Slow and stored light via electromagnetically induced transparency using a superconducting artificial atom

Prof. Yung-Fu Chen - Dept. of Physics, NCU

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DATE

2023-10-30

TIME

12:10-13:10

Online Link

從會議鏈結加入

https://nckucc.webex.com/nckucc/j.php?MTID=m71642014664797b37dea370d5fbad8ec

 

透過會議號加入

會議號(存取碼): 2517 857 5355

 

會議密碼: 231030


FIELD

Quantum Information Science

SPEAKER

Prof. Yung-Fu Chen - Dept. of Physics, NCU

TITLE

Slow and stored light via electromagnetically induced transparency using a superconducting artificial atom

 

ABSTRACT

Recent progresses in Josephson-junction-based superconducting circuits have propelled quantum information processing forward. However, lacking a metastable state in most superconducting artificial atoms hinders developments in optical quantum memory. In this presentation, we report a superconducting qubit-resonator system resembling a single Λ-type artificial atom under the waveguide quantum electrodynamics architecture that demonstrates light storage in microwave frequency through electromagnetically induced transparency. By employing parametric modulation of the qubit resonance frequency, the probe pulse can be rendered slow and transparent when interacting with the atom via the transmission line. Through the dynamical control of the parametric modulation, on-demand microwave storage and retrieval are realized. These findings underscore the potential of our straightforward design to attain optical quantum memory for quantum information processing in superconducting circuits.