Intense pulsed neutron generation based on the principle of Plasma Immersion Ion Implantation (PI3) technique.

Motloung, Setumo Victor

January 2006

<p>The development of a deuterium-deuterium/ tritium-deuterium (D-D/ D-T) pulsed neutron generator based on the principle of the Plasma Immersion Ion Implantation (PI3) technique is presented, in terms of investigating development of a compact system to generate an ultra short burst of mono-energetic neutrons (of order 1010 per second) during a short period of time (&lt / 20&mu / s) at repetition rates up to 1 kHz. The system will facilitate neutron detection techniques, such as neutron back-scattering, neutron radiography and time-of-flight activation analysis.</p> <p><br /> Aspects addressed in developing the system includes (a) characterizing the neutron spectra generated as a function of the target configuration/ design to ensure a sustained intense neutron flux for long periods of time, (b) the system was also characterised as a function of power supply operating conditions such as voltage, current, gas pressure and plasma density.</p>

Intense pulsed neutron generator

Mono-energetic neutrons

D-D and D-T reactions

Titanium target

HV pulse power supply

Plasma chamber

RF power supply

Neutron monitor and detectors

Neutron detection techniques.

Intense pulsed neutron generation based on the principle of Plasma Immersion Ion Implantation (PI3) technique.

Motloung, Setumo Victor

January 2006

<p>The development of a deuterium-deuterium/ tritium-deuterium (D-D/ D-T) pulsed neutron generator based on the principle of the Plasma Immersion Ion Implantation (PI3) technique is presented, in terms of investigating development of a compact system to generate an ultra short burst of mono-energetic neutrons (of order 1010 per second) during a short period of time (&lt / 20&mu / s) at repetition rates up to 1 kHz. The system will facilitate neutron detection techniques, such as neutron back-scattering, neutron radiography and time-of-flight activation analysis.</p> <p><br /> Aspects addressed in developing the system includes (a) characterizing the neutron spectra generated as a function of the target configuration/ design to ensure a sustained intense neutron flux for long periods of time, (b) the system was also characterised as a function of power supply operating conditions such as voltage, current, gas pressure and plasma density.</p>

Intense pulsed neutron generator

Mono-energetic neutrons

D-D and D-T reactions

Titanium target

HV pulse power supply

Plasma chamber

RF power supply

Neutron monitor and detectors

Neutron detection techniques.

Intense pulsed neutron generation based on the principle of Plasma Immersion Ion Implantation (PI3) technique

Motloung, Setumo Victor

January 2006

Magister Scientiae - MSc / The development of a deuterium-deuterium/ tritium-deuterium (D-D/ D-T) pulsed neutron generator based on the principle of the Plasma Immersion Ion Implantation (PI3) technique is presented, in terms of investigating development of a compact system to generate an ultra short burst of mono-energetic neutrons (of order 1010 per second) during a short period of time (< 20μs) at repetition rates up to 1 kHz. The system will facilitate neutron detection techniques, such as neutron back-scattering, neutron radiography and time-of-flight activation analysis. Aspects addressed in developing the system includes (a) characterizing the neutron spectra generated as a function of the target configuration/ design to ensure a sustained intense neutron flux for long periods of time, (b) the system was also characterised as a function of power supply operating conditions such as voltage, current, gas pressure and plasma density. / South Africa

Intense pulsed neutron generator

Mono-energetic neutrons

D-D and D-T reactions

Titanium target

HV pulse power supply

Plasma chamber

RF power supply

Neutron monitor and detectors