Short pulse neutron generator

What is claimed is: 1. A neutron generator comprising: a Blumlein structure comprising: a first conductive plate; a second conductive plate separated from the first conductive plate by an accelerating gap, wherein the second conductive plate is coplanar with the first conductive plate; at least one of a resistor or an inductor that is electrically connected to the first conductive plate and the second conductive plate; a vacuum chamber positioned in the accelerating gap between the first conductive plate and the second conductive plate; a third conductive plate that is electrically grounded; a first electrode having a first face, the first electrode coupled to the first conductive plate, wherein the first electrode comprises a target surface loaded with at least one of deuterium or tritium; a second electrode having a second face, the second electrode coupled to the second conductive plate, wherein the second electrode comprises a target surface loaded with at least one of deuterium or tritium, the first electrode opposing the second electrode in the vacuum chamber and separated by the accelerating gap, wherein the first electrode face and the second electrode face each comprise a plurality of apertures, and wherein the Blumlein structure is configured to accelerate ions in either direction of the first face and the second face in the accelerating gap depending upon the relative polarities of the first electrode and the second electrode; and a dielectric material positioned between the first conductive plate and the third conductive plate; a switch that is configured to electrically connect the second conductive plate to the third conductive plate and electrically disconnect the second conductive plate from the third conductive plate; and an ion generator positioned in the gap between the first conductive plate and the second conductive plate, the ion generator positioned to output ions into the vacuum chamber. 2. The neutron generator of claim 1 , wherein the ion generator is positioned relative to the cavity to pre-fill the cavity with ions. 3. The neutron generator of claim 2 , the first electrode extending from the first conductive plate and comprising a second face, the second face forming a second cavity, the second face positioned between the second cavity and the face of the second electrode, wherein a second ion source is positioned relative to the second cavity to pre-fill the second cavity with ions. 4. The neutron generator of claim 1 , wherein a width of the accelerating gap is between one tenth of a centimeter and two centimeters. 5. The neutron generator of claim 1 , wherein the target surface has a three-dimensional elliptical shape. 6. The neutron generator of claim 1 , further comprising a first voltage source that is coupled to the first conductive plate and a second voltage source that drives the ion generator, the second voltage source configured to output voltage such that the ion generator generates ions in the vacuum chamber prior to the switch electrically connecting the second conductive plate with the third conductive plate. 7. A neutron generator comprising: a Blumlein structure comprising: a first conductive plate; a second conductive plate separated from the first conductive plate by an accelerating gap, wherein the second conductive plate is coplanar with the first conductive plate; at least one of a resistor or an inductor is electrically connected to the first conductive plate and the second conductive plate; a vacuum chamber positioned in the accelerating gap between the first conductive plate and the second conductive plate; a third conductive plate that is electrically grounded; a first electrode having a first face, the first electrode coupled to the first conductive plate, wherein the first electrode comprises a target surface loaded with at least one of deuterium or tritium; a second electrode having a second face, the second electrode coupled to the second conductive plate, wherein the second electrode comprises a target surface loaded with at least one of deuterium or tritium, the first electrode opposite the second electrode in the vacuum chamber and separated by the accelerating gap, wherein the first electrode face and the second electrode face each comprise a plurality of apertures, wherein the Blumlein structure is configured to accelerate ions in either direction of the first face and the second face in the accelerating gap; and a dielectric material positioned between the first conductive plate and the third conductive plate; a switch that is configured to electrically connect the second conductive plate to the third conductive plate, and electrically disconnect the second conductive plate from the third conductive plate; and an ion generator positioned in the gap between the first conductive plate and the second conductive plate, the ion generator positioned to output ions into the vacuum chamber. 8. The neutron generator of claim 7 , wherein the ion generator is positioned relative to the cavity to pre-fill the cavity with ions. 9. The neutron generator of claim 8 , the first electrode extending from the first conductive plate and comprising a second face, the second face forming a second cavity, the second face positioned between the second cavity and the face of the second electrode, wherein a second ion source is positioned relative to the second cavity to pre-fill the second cavity with ions. 10. The neutron generator of claim 7 , wherein a width of the accelerating gap is between one tenth of a centimeter and two centimeters. 11. The neutron generator of claim 7 , wherein the target surface has a three-dimensional elliptical shape. 12. The neutron generator of claim 7 , further comprising a first voltage source that is coupled to the first conductive plate and a second voltage source that drives the ion generator, the second voltage source configured to output voltage such that the ion generator generates ions in the vacuum chamber prior to the switch electrically connecting the second conductive plate with the third conductive plate. 13. A neutron generator comprising: a Blumlein structure comprising: a first conductive plate; a second conductive plate separated from the first conductive plate by an accelerating gap, wherein the second conductive plate is coplanar with the first conductive plate; at least one of a resistor or an inductor is electrically connected to the first conductive plate and the second conductive plate; a vacuum chamber positioned in the accelerating gap between the first conductive plate and the second conductive plate; a third conductive plate that is electrically grounded; a first electrode having a first face, the first electrode coupled to the first conductive plate, wherein the first electrode comprises a target surface loaded with at least one of deuterium or tritium; a second electrode having a second face, the second electrode coupled to the second conductive plate, wherein the second electrode comprises a target surface loaded with at least one of deuterium or tritium, the first electrode opposite the second electrode in the vacuum chamber and separated by the accelerating gap, wherein the first electrode face and the second electrode face each comprise a plurality of apertures, wherein the Blumlein structure is configured to accelerate ions in either direction of the first face and the second face in the accelerating gap; and a dielectric material positioned between the first conductive plate and the third conductive plate; a switch that is configured to electrically connect the second conductive plate to the third conductive plate