2007 Volume 127 Issue 9 Pages 1348-1349
Controlling the motion of silicon isotopes with an atomic mirror which is comprised of dielectric dual layers is numerically demonstrated under the realistic condition. The performance of the atomic mirror depends on the power and the effective detune frequency of the deep-ultraviolet light source which is enhanced in the dielectric waveguide layer. Taking advantage of these features and the frequency separation in isotopes, we can control silicon isotopes, furthermore, nuclear spin with the atomic mirror.
The transactions of the Institute of Electrical Engineers of Japan.C
The Journal of the Institute of Electrical Engineers of Japan