Multibeam Borrmann effect in crystalline gamma-ray lasers

International Laser Science Conference Pub Date : 1987-09-25 DOI:10.1364/ils.1986.tud2

J. Hutton, G. T. Trammell, J. P. Hannon

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Abstract

The effects of crystallinity are of crucial importance in considerations regarding gamma-ray lasers, bringing in new elements of laser theory which could well prove decisive in determining whether lasing can or cannot be achieved. Certain multibeam Borrmann eigenmodes of the radiation field within a perfect crystal containing resonant Mossbauer nuclei exhibit much less photoabsorption and much stronger coupling to the nuclei (provided the nuclear transition is of multipolarity M1 or higher) than do the single plane wave channels of an amorphous system (or equivalently, off-Bragg in the crystal). These modes offer the possibility of achieving lasing with orders of magnitude less population inversion density than would otherwise be the case, provided a nondestructive means is found to achieve a population inversion. The radiation in these modes would emerge from the crystal in a number of well-defined beams, each collimated by Bragg diffraction to an angular divergence of from 10-5to 10-4 rad. The properties of these multibeam modes as they relate to gamma-ray lasers, as well as the effects of crystallinity on the optics of systems which decay by superradiant rather than stimulate demission, are discussed.

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晶体伽玛射线激光器中的多束博尔曼效应

结晶度的影响在考虑伽马射线激光器时是至关重要的，它带来了激光理论的新元素，这些元素可以很好地证明是决定激光能否实现的决定性因素。在包含共振穆斯堡尔核的完美晶体中，辐射场的某些多束Borrmann本征模式比非晶系统的单平面波通道(或等效的晶体中的off-Bragg)表现出更少的光吸收和更强的与原子核的耦合(假设核跃迁是多极M1或更高)。这些模式提供了实现激光的可能性，其密度比其他情况下要小几个数量级，只要找到一种非破坏性的方法来实现种群反转。这些模式下的辐射将从晶体中以许多定义良好的光束出现，每个光束通过布拉格衍射准直，角散度从10-5到10-4 rad。讨论了这些多光束模式与伽马射线激光器的特性，以及结晶度对通过超辐射而不是激发衰变的系统光学的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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International Laser Science Conference

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