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Light Seminars > Quantum
February 21, 2023
QUANTUM SEMINAR: Production of spin-squeezed atomic crystal

Hour: From 15:00h to 16:00h

Place: Blue Lecture Room and Online (Zoom)

QUANTUM SEMINAR: Production of spin-squeezed atomic crystal

EMILIA WITKOWSKA
The Institute of Physics, Polish Academy of Sciences, Warsaw

Abstract:

The second Quantum Revolution’s main objective lies in multipartite entangled states: their production, storage, certification, and application. Such states, i.e., many-body entangled and many-body Bell correlated states, are essential resources for quantum-based technologies and quantum-enhancement metrology. As such, a general protocol allowing the controlled generation of such states is an extensive research direction in modern quantum science. Spin squeezing represents such a protocol paving the way for high-precision measurements.

I will discuss two methods to obtain a regular arrangement of atoms in an optical lattice where all the atoms share metrologically useful quantum correlations in the form of spin squeezing. Such a spin-squeezed atomic crystal is obtained using bosonic or fermionic atoms. In the first case, the spin-squeezed atomic crystal is produced by adiabatically raising an optical lattice in an interacting two-component Bose-Einstein condensate. For fermions, however, it is necessary to add the atom-light coupling to induce effective interactions among atoms. The schemes could be directly implemented experimentally with state-of-the-art techniques.

Meeting ID: 276 878 5000
Passcode: 27687

 

 

 

Hosted by Prof. Dr. Maciej Lewenstein
Light Seminars > Quantum
February 21, 2023
QUANTUM SEMINAR: Production of spin-squeezed atomic crystal

Hour: From 15:00h to 16:00h

Place: Blue Lecture Room and Online (Zoom)

QUANTUM SEMINAR: Production of spin-squeezed atomic crystal

EMILIA WITKOWSKA
The Institute of Physics, Polish Academy of Sciences, Warsaw

Abstract:

The second Quantum Revolution’s main objective lies in multipartite entangled states: their production, storage, certification, and application. Such states, i.e., many-body entangled and many-body Bell correlated states, are essential resources for quantum-based technologies and quantum-enhancement metrology. As such, a general protocol allowing the controlled generation of such states is an extensive research direction in modern quantum science. Spin squeezing represents such a protocol paving the way for high-precision measurements.

I will discuss two methods to obtain a regular arrangement of atoms in an optical lattice where all the atoms share metrologically useful quantum correlations in the form of spin squeezing. Such a spin-squeezed atomic crystal is obtained using bosonic or fermionic atoms. In the first case, the spin-squeezed atomic crystal is produced by adiabatically raising an optical lattice in an interacting two-component Bose-Einstein condensate. For fermions, however, it is necessary to add the atom-light coupling to induce effective interactions among atoms. The schemes could be directly implemented experimentally with state-of-the-art techniques.

Meeting ID: 276 878 5000
Passcode: 27687

 

 

 

Hosted by Prof. Dr. Maciej Lewenstein

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