Difference between revisions of "Spin Orbit Coupling"

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==Creation of 2D SOC==
 
==Creation of 2D SOC==
2 orthogonal beams are sent back and forth to create a square lattice:
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===Square lattice===
<math>V_0\cos^2(k_0 x)+V_0\sin^2(k_0 y)</math>
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The experimental realization is published here <ref>PRL 121, 150401 (2018)</ref>. 2 orthogonal beams are sent back and forth to create a square lattice:
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<math>V_{latt}=V_0\cos^2(k_0 x)+V_0\sin^2(k_0 y)</math>. The total Hamiltonian of the system reads as <math>\hat H = \frac{p^2}{2m}+V_{latt}+\Omega_{R}(x,y)+\frac{\delta}{2}\sigma_z</math>
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<ref> </ref>
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<math></math>
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==References==
 
[[Category:BEC]]
 
[[Category:BEC]]

Revision as of 13:59, 3 February 2020

Creation of 2D SOC

Square lattice

The experimental realization is published here [1]. 2 orthogonal beams are sent back and forth to create a square lattice: V_{latt}=V_0\cos^2(k_0 x)+V_0\sin^2(k_0 y). The total Hamiltonian of the system reads as \hat H = \frac{p^2}{2m}+V_{latt}+\Omega_{R}(x,y)+\frac{\delta}{2}\sigma_z [2]

References

  1. PRL 121, 150401 (2018)
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