Neutron tube with magnetic confinement of the electrons by permanent magnets and its method of manufacture
First Claim
1. A method of increasing the operating lifetime of a sealed neutron tube containing a deuterium-tritium or deuterium-deuterium gas mixture under low pressure and having a Penning ion source with 2n elementary emission cells, an extraction-acceleration electrode and a target electrode, each of said elementary emission cells including at least one individual permanent magnet associated uniquely with said each elementary emission cell for forming a confinement magnetic field that channels ions formed in said each elementary emission cell to said extraction-acceleration electrode for bombardment of said target electrode, comprising the steps of:
- magnetizing a first half of said permanent magnets to a nominal value that allows correct operation of the emission cells associated with said first half of said permanent magnets and, magnetizing a second half of said permanent magnets to a zero or low value that does not allow correct operation of the emission cells associated with said second half of said permanent magnets,operating said neutron tube during a first portion of the operating lifetime thereof with said first half of said permanent magnets being magnetized to said nominal value and said second half of said permanent magnets being magnetized to said zero or low value,magnetizing said second half of said permanent magnets to be nominal value that allows correct operation of the emission cells associated with said second half of said permanent magnets and, magnetizing said first half of said permanent magnets to a zero or low value that does not allow correct operation of the emission cells associated with said first half of said permanent magnets,operating said neutron tube during a second portion of the operating lifetime thereof with said second half of said permanent magnets being magnetized to said nominal value and said first half of said permanent magnets being magnetized to said a zero or low value.
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Abstract
A sealed neutron tube with magnetic confinement of the electrons by permanent magnets. The sealed tube contains a D-T gas mixture under low pressure, fitted with a target, an extraction-acceleration electrode (EAE) and an ion source with 2n Penning cells having anodes in a single cathode cavity and one permanent magnetization system (PMS) per cell. The ions, formed in the ion source, by means of the simultaneous presence of an electric and magnetic field, are accelerated by the EAE and projected onto the target in order to cause emission of neutrons therefrom. In this tube, half (n) of the PMS is magnetized to a nominal value and the other half is weakly magnetized or unmagnetized.
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Citations
5 Claims
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1. A method of increasing the operating lifetime of a sealed neutron tube containing a deuterium-tritium or deuterium-deuterium gas mixture under low pressure and having a Penning ion source with 2n elementary emission cells, an extraction-acceleration electrode and a target electrode, each of said elementary emission cells including at least one individual permanent magnet associated uniquely with said each elementary emission cell for forming a confinement magnetic field that channels ions formed in said each elementary emission cell to said extraction-acceleration electrode for bombardment of said target electrode, comprising the steps of:
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magnetizing a first half of said permanent magnets to a nominal value that allows correct operation of the emission cells associated with said first half of said permanent magnets and, magnetizing a second half of said permanent magnets to a zero or low value that does not allow correct operation of the emission cells associated with said second half of said permanent magnets, operating said neutron tube during a first portion of the operating lifetime thereof with said first half of said permanent magnets being magnetized to said nominal value and said second half of said permanent magnets being magnetized to said zero or low value, magnetizing said second half of said permanent magnets to be nominal value that allows correct operation of the emission cells associated with said second half of said permanent magnets and, magnetizing said first half of said permanent magnets to a zero or low value that does not allow correct operation of the emission cells associated with said first half of said permanent magnets, operating said neutron tube during a second portion of the operating lifetime thereof with said second half of said permanent magnets being magnetized to said nominal value and said first half of said permanent magnets being magnetized to said a zero or low value. - View Dependent Claims (2, 3, 4, 5)
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Specification