Eur. Phys. J. A (2010) 44: 279-285
https://doi.org/10.1140/epja/i2010-10947-5

Regular Article - Theoretical Physics

Abnormal features of neutron-nucleus low-energy interaction and the mechanism of inhibition of neutron-induced reactions

Kiev National Taras Shevchenko University, Kiev, Ukraine

^* e-mail: viv@vhome.kiev.ua

Received: 26 October 2009
Revised: 31 January 2010
Accepted: 2 March 2010
Published online: 18 April 2010

Abstract

The features of the distant interaction of thermal and slow neutrons with nuclei are examined. From the Dirac equation analysis it was shown that this interaction is determined by the potential barrier located outside the nucleus. The height of the barrier is proportional to Z ²/A ^4/3 and reaches 110eV for even-even nuclei like U²³⁸ and 25-65eV for even-odd U²³⁵ , U²³³ , Pu²⁴¹ nuclei. This barrier is connected with the non-linear ponderomotive interaction of the neutron abnormal magnetic moment with the strong electric field of a nucleus. The barrier penetrability for thermal neutrons equals 0.9-0.98. For cold neutrons the penetrability decreases greatly and for ultracold ones it becomes very small. At unlimited decrease of the neutron energy, E 0 , the cross-section of any neutron-nucleus reaction 0 . So such reactions become impossible. In this work the existence of separated neutron potential wells symmetrically located at r ₀ (1.3-4.5)×10^-12 cm (1.7-5)×R from even-odd U²³⁵ , U²³³ , Pu²⁴¹ nuclei is predicted. These wells with depths 0.1-5eV are the result of combined ponderomotive and pure magnetic interactions of the neutron abnormal magnetic moment with nucleus electric and magnetic fields. The presence of distant wells leads to the possibility of the existence of virtual or quasi-stationary neutron-nucleus molecules. Such wells can be virtual traps for thermal and cold neutrons. It was predicted that the neutron halo phenomenon may be connected with such traps.