Observation of Pure Nuclear Diffraction from a Fe/Cr Antiferromagnetic Multilayer

T. S. Toellner; W. Sturhahn; R. Röhlsberger; E. E. Alp; C. H. Sowers; E. E. Fullerton

doi:10.1103/PhysRevLett.74.3475

Observation of Pure Nuclear Diffraction from a Fe/Cr Antiferromagnetic Multilayer

T. S. Toellner, W. Sturhahn, R. Röhlsberger, E. E. Alp, C. H. Sowers, and E. E. Fullerton

Phys. Rev. Lett. 74, 3475 – Published 24 April 1995

Abstract

We report the observation of nuclear resonant diffraction of synchrotron radiation from a $^{57}$ Fe/Cr multilayer. The multilayer consists of 25 $^{57}$ Fe(17 Å)/Cr(10 Å) bilayers with the Cr layer thickness chosen so as to exhibit antiferromagnetic (AF) coupling of the $^{57}$ Fe layers. Because of the AF alignment of the layers, the magnetic periodicity of the multilayer is twice the electronic periodicity, resulting in a pure nuclear Bragg reflection that appears during nuclear resonant diffraction. The pure nuclear Bragg reflection presents a means of filtering synchrotron radiation to the level of 1 $0^{- 8}$ eV at the nuclear resonance energy of 14.4 keV.