The Refractive Index of Silicon at Gamma Ray Energies

Abstract

The index of refraction n(Eγ)=1+δ(Eγ)+iβ(Eγ) is split into a real part δ and an absorptive part β. The absorptive part has the three well-known contributions to the cross section σabs: the photo effect, the Compton effect and the pair creation, but there is also the inelastic Delbr\"uck scattering. Second-order elastic scattering cross sections σsca with Rayleigh scattering (virtual photo effect), virtual Compton effect and Delbr\"uck scattering (virtual pair creation) can be calculated by integrals of the Kramers-Kronig dispersion relations from the cross section σabs. The real elastic scattering amplitudes are proportional to the refractive indices δphoto, δCompton and δpair. While for X-rays the negative δphoto dominates, we show for the first time experimentally and theoretically that the positive δpair dominates for γ rays, opening a new era of γ optics applications, i.e. of nuclear photonics.