INVESTIGATIONS OF <EM>p</EM>-WAVE NEUTRON RESONANCE NEAR NEUTRON BINDING ENERGY

HUO Yu-Kun; LIU Jian-Feng

Chinese Physics C> 1986, Vol. 10> Issue(4) : 490-496

INVESTIGATIONS OF p-WAVE NEUTRON RESONANCE NEAR NEUTRON BINDING ENERGY

HUO Yu-Kun ^, ,
LIU Jian-Feng

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Abstract：
Laser-stimulated enhancement of p-wave radiative capture of low energy neutron is studied, with aiming at investigations of p-wave neutron resonance near neutron binding energy, which can not be observed in the usual low energy neutron induced reactions. The cross sections for such processes are calculated in second order perturbation theory and expressed in term of the intensity of laser radiation and the nuclear matrix elements. Numerical estimates show that an appreciable enhancement of the radiative capture will not be observed until the laser electric field strength reaches a magnitude of 10⁵ to 10⁸ (V/cm), depending whether an s-wave resonance exists simultaneously in the entrance channel.

References

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HUO Yu-Kun and LIU Jian-Feng. INVESTIGATIONS OF p-WAVE NEUTRON RESONANCE NEAR NEUTRON BINDING ENERGY[J]. Chinese Physics C, 1986, 10(4): 490-496.

HUO Yu-Kun and LIU Jian-Feng. INVESTIGATIONS OF p-WAVE NEUTRON RESONANCE NEAR NEUTRON BINDING ENERGY[J]. Chinese Physics C, 1986, 10(4): 490-496. shu

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Received: 1900-01-01
Revised: 1900-01-01

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沈阳化工大学材料科学与工程学院沈阳 110142

INVESTIGATIONS OF p-WAVE NEUTRON RESONANCE NEAR NEUTRON BINDING ENERGY

HUO Yu-Kun ^,
LIU Jian-Feng

Corresponding author: HUO Yu-Kun,

Received Date: 1900-01-01
Accepted Date: 1900-01-01
Available Online: 1986-08-05

Abstract: Laser-stimulated enhancement of p-wave radiative capture of low energy neutron is studied, with aiming at investigations of p-wave neutron resonance near neutron binding energy, which can not be observed in the usual low energy neutron induced reactions. The cross sections for such processes are calculated in second order perturbation theory and expressed in term of the intensity of laser radiation and the nuclear matrix elements. Numerical estimates show that an appreciable enhancement of the radiative capture will not be observed until the laser electric field strength reaches a magnitude of 10⁵ to 10⁸ (V/cm), depending whether an s-wave resonance exists simultaneously in the entrance channel.