Conclusion
Al though the experimental studies of coherent phenomena were started even in early years after the discovery of the Mößbauer effect, this direction has been progressively developed, perhaps, in the last decade only. Looking back, we see the experimental development up to now divided into three main stages. The years 1960–1968 comprise the first manifestations of the coherent nuclear resonant scattering; 1969–1975 — the observations of pure nuclear diffraction and the suppression effect in the non-elastic channel, the estimation of scales of coherency conservation in space and in time and, finally, 1975–1985 years — the epoch of perfect crystals; the proof of enhancement of the role of radiative processes in coherent interaction of γ-rays with nuclei in large volumes, the comprehensive study of properties of a collective coherent nuclear γ-resonance, the intersting first applications of the methods of nuclear diffraction of Mößbauer rays.
The recent success in filtering Mößbauer quanta out of the synchrotron radiation marks the beginning of a new stage. Now the field of nuclear resonance diffraction might cease to be the oxotic domain of a few physicists and might be activated by the contributions of many people — and then we shall hopefully witness a new collective phenomenon.
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Smirnov, G.V. Coherent effects in resonant diffraction: experiment. Hyperfine Interact 27, 203–218 (1986). https://doi.org/10.1007/BF02354756
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DOI: https://doi.org/10.1007/BF02354756