---------- Forwarded message ---------- Date: Thu, 1 Mar 2001 13:35:36 -0500 (EST) From: AIP listserver <physnews@aip.org> To: physnews-mailing@aip.org Subject: update.528 PHYSICS NEWS UPDATE The American Institute of Physics Bulletin of Physics News Number 528 March 1, 2001 by Phillip F. Schewe, Ben Stein, and James Riordon SWITCHABLE X-RAY STORAGE. Recently we reported on two experiments at Harvard (Update 521) in which a light signal enters a volume of gas where, under the action of an additional control laser beam, it is greatly slowed; in fact, as the signal slows down to zero the light energy is coherently converted into a collective excitation of the spins of the atoms in the gas. Later the light signal can be resurrected and sent on its way. It has come to our attention that something like this, only in a nuclear system, was reported in an article some four years ago (Shvyd'ko et al., Physical Review Letters, 7 October 1996). In the earlier experiment, conducted at HASYLAB (DESY) in Hamburg (contact Yuri Shvyd'ko, University of Hamburg, 49-40- 8998-2200, yuri.shvydko@desy.de), the incoming light consists of x rays, and the receiving medium is an ensemble of iron-57 nuclei, ensconced in a FeBO3 crystal. All 10^18 iron nuclei in the 20- micron-thick sample interact collectively in a single "nuclear exciton" state with each new incoming x-ray photon. As APS Editor-in-Chief Martin Blume (631-591-4000) points out, such a "solid-state nuclear physics" effect is well known also under the name of coherent nuclear resonant scattering. By abrupt switching of a weak (60 Gauss) external magnetic field, the nuclear exciton can be manipulated in such a way that its decay is prohibited. In this way the x rays are stored, and can be released on demand by reversing the magnetic switching. The released light signal is coherent with the incoming one. The coherence of quantum information transfer is perfectly preserved. Put differently, one can say that in the Harvard experiments the atoms, behaving like tiny electric dipoles, converted the incoming light into a coherent excitation of atomic spins (a polariton), whereas in the HASYLAB experiment the iron nuclei, behaving like tiny magnetic dipoles, converted the incoming x rays into a coherent nuclear excitation spread over the whole crystal (a nuclear exciton). As in the Harvard experiments, the pent-up electromagnetic energy stored in the system can be released (and sent moving in its original direction) by the flip of a switch, in this case by adjusting the external magnetic field direction. A SHARP GAMMA-RAY HOLOGRAM, with atomic-scale [SSZ: Text deleted] ____________________________________________________________________ Before a larger group can see the virtue of an idea, a smaller group must first understand it. "Stranger Suns" George Zebrowski The Armadillo Group ,::////;::-. James Choate Austin, Tx /:'///// ``::>/|/ ravage@ssz.com www.ssz.com .', |||| `/( e\ 512-451-7087 -====~~mm-'`-```-mm --'- --------------------------------------------------------------------