Imaging of energy transfer in a frozen Rydberg gas

Donald P. Fahey; Thomas J. Carroll; Michael W. Noel

Imaging of energy transfer in a frozen Rydberg gas

ORAL

Abstract

The dipole-dipole interaction is the dominant mechanism for energy exchange among atoms in a frozen Rydberg gas on microsecond time scales. By way of selective field ionization and a spatially sensitive ion detector, we image the transfer of energy among Rydberg atoms. We explore the effect of different spatial arrangements of Rydberg atoms on the energy transfer.

^*This work was supported by the National Science Foundation (grant no. 1205897) and through the Extreme Science and Engineering Discovery Environment (supported by NSF grant no. OCI-1053575).

Authors

Donald P. Fahey
- Bryn Mawr College
Thomas J. Carroll
- Ursinus College
Michael W. Noel
- Bryn Mawr College