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Trapping of Rydberg atoms in tight magnetic microtraps

Mon, 2018-02-05 13:42 - Robert Spreeuw [1]
Date: 
2018-01-31
Author(s): 

A. G. Boetes, R. V. Skannrup, J. Naber, S. J. J. M. F. Kokkelmans, and R. J. C. Spreeuw

Reference: 

PHYSICAL REVIEW A 97, 013430 (2018)

URL: 

https://doi.org/10.1103/PhysRevA.97.013430 [2]

We explore the possibility to trap Rydberg atoms in tightly confining magnetic microtraps. The trapping frequencies for Rydberg atoms are expected to be influenced strongly by magnetic-field gradients. We show that there are regimes where Rydberg atoms can be trapped. Moreover, we show that so-called magic trapping conditions can be found for certain states of rubidium, where both Rydberg atoms and ground-state atoms have the same trapping frequencies. Magic trapping is highly beneficial for implementing quantum gate operations that require long operation times.

Source URL: http://qurope.eu/db/publications/trapping-rydberg-atoms-tight-magnetic-microtraps

Links:
[1] http://qurope.eu/users/spreeuw
[2] https://doi.org/10.1103/PhysRevA.97.013430
[3] http://qurope.eu/category/european-commission/h2020
[4] http://qurope.eu/category/qipc/qipc
[5] http://qurope.eu/category/projects/rysq
[6] http://qurope.eu/category/attribute/result
[7] http://qurope.eu/category/qics/10-quantum-computation/15-implementations-quantum-optics/1510ry-rydberg-atoms