https://doi.org/10.1140/epjd/e2005-00198-1
Manipulating atoms and molecules with evanescent-wave mirrors
1
Department of Chemistry,
Ben-Gurion University of the Negev, Beer-Sheva 84105, Israel
2
Physics Department, University of Connecticut, 2152 Hillside Road,
Storrs, Connecticut 06269, USA
Corresponding author: a rcote@phys.uconn.edu
Received:
31
March
2005
Revised:
11
May
2005
Published online:
26
July
2005
We explore how atoms and polar molecules can be manipulated using evanescent-wave mirrors (EWM). We review the simpler case of ultracold atoms incident on EWM, and show that quantum effects such as tunneling, above barrier reflection, and Casimir retardation corrections, can be probed. We show that it is possible to enhance significantly quantum effects by engineering sharp features in the effective atom-EWM potential. We illustrate the concept with a bichromatic EWM created by using red and blue detuned lasers. Finally, we extend the treatment to ultracold diatomic polar molecules. Quantum reflection and molecular state selection are demonstrated under attainable physical conditions. By facilitating the manipulation and trapping of ultracold molecules, such molecular mirrors could have several applications, e.g., as devices to filter and select state for ultracold chemistry, or to manipulate states for quantum information processing.
PACS: 33.80.-b – Photon interactions with molecules / 42.50.-p – Quantum optics
© EDP Sciences, Società Italiana di Fisica, Springer-Verlag, 2005
