| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 376190000 | By charged particle bombardment | 56 |
| 20080240330 | Compact Device for Dual Transmutation for Isotope Production Permitting Production of Positron Emitters, Beta Emitters and Alpha Emitters Using Energetic Electrons - A method and apparatus for directing high energy electrons to a converter material that emits gamma rays, which, in turn interact directly with parent isotopes to produce unstable, short-lived medical isotopes and product isotopes by the gamma, n reaction, or which interact with high-z materials to produce neutrons that then produce valuable isotopes by neutron capture in parent isotopes. | 10-02-2008 |
| 20090135983 | Cross-Section Reducing Isotope System - An isotope production target rod for a power generating nuclear reactor is provided. The isotope production target rod can include at least one rod central body including an outer shell that defines an internal cavity and a plurality of irradiation targets within the internal cavity. The irradiation targets can be positioned in a spatial arrangement utilizing a low nuclear cross-section separating medium to maintain the spatial arrangement. | 05-28-2009 |
| 20090274258 | COMPOUND ISOTOPE TARGET ASSEMBLY FOR PRODUCTION OF MEDICAL AND COMMERCIAL ISOTOPES BY MEANS OF SPECTRUM SHAPING ALLOYS - A neutron generator and method of using the same to produce commercial and medical isotopes. Isotopes are transmuted using fission spectrum neutrons produced in neutron multiplier alloys proximate a target isotope. The produced neutron fission spectrum is tailored or shaped by alloys disposed between the multiplier alloys and the target isotope. The tailoring alloys selectively convert the neutron fission spectrum to a nearly coherent distribution of selected high energy, fast, epithermal, or thermal neutrons. The tailoring alloys are engineered to slow the fission spectrum neutrons to the resonance energies of the selected target isotopes through scattering or hydriding of selected components of high temperature aluminum alloys that optimize neutron capture in engineered target alloys. | 11-05-2009 |
| 20100284502 | HIGH ENERGY PROTON OR NEUTRON SOURCE - The invention provides a compact high energy proton source useful for medical isotope production and for other applications including transmutation of nuclear waste. The invention further provides a device that can be used to generate high fluxes of isotropic neutrons by changing fuel types. The invention further provides an apparatus for the generation of isotopes including but not limited to | 11-11-2010 |
| 20100316176 | SYSTEM AND METHOD FOR REMOTELY-INDUCIBLE VARIABLE-ELEMENT ELECTRO-CHEMICAL-NUCLEAR DISRUPTION - A system for remotely-inducing variable-element electro-chemical-nuclear disruption, the system including an energy delivery device that emits a frequency-adjustable electromagnetic non-photonic continuous-wave beam, and a target area located a distance from the energy delivery device with which the continuous-wave electromagnetic beam interacts wherein the energy delivery device accelerates one or more charged particles or ions within the energy delivery device as a charge antenna. | 12-16-2010 |
| 20110051872 | IRRADIATION TARGETS FOR ISOTOPE DELIVERY SYSTEMS - Example embodiments are directed to methods of producing desired isotopes in commercial nuclear reactors and associated apparatuses using instrumentation tubes conventionally found in nuclear reactor vessels to expose irradiation targets to neutron flux found in the operating nuclear reactor. Example embodiments include irradiation targets for producing radioisotopes in nuclear reactors and instrumentation tubes thereof. Example embodiments include one or more irradiation targets useable with example delivery systems that permit delivery into instrumentation tubes. Example embodiments may be sized, shaped, fabricated, and otherwise configured to successfully move through example delivery systems and conventional instrumentation tubes while producing desired isotopes. | 03-03-2011 |
| 20110051873 | METHOD FOR PRODUCING RADIOSTRONTIUM - The invention relates to producing radiostrontium. The aim of the invention is to release radiostrontium from a large mass of liquid metal rubidium, thereby making it possible to increase the efficiency of radiostrontium production and simplify the production process. Sorption is carried out directly on the inner shell of a target at a temperature of 275-350° C., or by extracting radiostrontium from circulating rubidium by sorption on the heated surface of a trap at a temperature of 220-350° C., or by filtering liquid rubidium through a filtering element made of a porous material resistant to liquid rubidium. | 03-03-2011 |
| 20110194662 | ACCELERATOR-BASED METHOD OF PRODUCING ISOTOPES - The invention provides a method using accelerators to produce radio-isotopes in high quantities. The method comprises: supplying a “core” of low-enrichment fissile material arranged in a spherical array of LEU combined with water moderator. The array is surrounded by substrates which serve as multipliers and moderators as well as neutron shielding substrates. A flux of neutrons enters the low-enrichment fissile material and causes fissions therein for a time sufficient to generate desired quantities of isotopes from the fissile material. The radio-isotopes are extracted from said fissile material by chemical processing or other means. | 08-11-2011 |
| 20120027152 | ISOTOPE PRODUCTION TARGET - An isotope production target may include an outer diameter wall and an inner diameter wall. An isotope source may be located between the inner diameter wall and the outer diameter wall, and the isotope source may comprise fissile material interspersed with one or more voided regions. A central region may be located within the inner diameter wall, and the central region may be configured to house a neutron thermalization volume. | 02-02-2012 |
| 20120307953 | General Radioisotope Production Method Employing PET-Style Target Systems - Methods for producing a radioisotope by a charged particle irradiation of a fluid target matrix are provided. A method of producing a radioisotope includes irradiating a fluid target matrix comprising a compound of a target isotope with a charged particle beam to transform at least a portion of the target isotope to the radioisotope, and isolating the radioisotope from the irradiated fluid target matrix. The target isotope may be an isotope of cadmium, an isotope of thallium, an isotope of zinc, an isotope of gallium, an isotope of tellurium, an isotope of molybdenum, an isotope of rhodium, an isotope of selenium, an isotope of nickel, an isotope of yttrium, an isotope of strontium, an isotope of bismuth, an isotope of tungsten, and an isotope of titanium, provided that the target isotope is not Mo-100. | 12-06-2012 |
| 20120321026 | TARGET APPARATUS AND ISOTOPE PRODUCTION SYSTEMS AND METHODS USING THE SAME - A target apparatus for a radioisotope production system. The target apparatus includes a production chamber that is configured to contain a starting liquid. The production chamber is configured to receive a particle beam that is incident upon the starting liquid thereby generating radioisotopes and transforming a portion of the starting liquid into vapor. The target apparatus also includes a condensing chamber and a fluid channel that fluidly couples the production and condensing chambers and is configured to allow the vapor to flow from the production chamber to the condensing chamber. The condensing chamber is configured to transform the vapor into a condensed liquid. | 12-20-2012 |
| 20130010910 | TARGETS AND METHODS FOR TARGET PREPARATION FOR RADIONUCLIDE PRODUCTION - The invention relates to nuclear technology, and to irradiation targets and their preparation. One embodiment of the present invention includes a method for preparation of a target containing intermetallic composition of antimony Ti—Sb, Al—Sb, Cu—Sb, or Ni—Sb in order to produce radionuclides (e.g., tin—117 m) with a beam of accelerated particles. The intermetallic compounds of antimony can be welded by means of diffusion welding to a copper backing cooled during irradiation on the beam of accelerated particles. Another target can be encapsulated into a shell made of metallic niobium, stainless steel, nickel or titanium cooled outside by water during irradiation. Titanium shell can be plated outside by nickel to avoid interaction with the cooling water. | 01-10-2013 |
| 20130083880 | ELECTRON LINAC FOR MEDICAL ISOTOPE PRODUCTION WITH IMPROVED ENERGY EFFICIENCY AND ISOTOPE RECOVERY - A method and isotope linac system are provided for producing radio-isotopes and for recovering isotopes. The isotope linac is an energy recovery linac (ERL) with an electron beam being transmitted through an isotope-producing target. The electron beam energy is recollected and re-injected into an accelerating structure. The ERL provides improved efficiency with reduced power requirements and provides improved thermal management of an isotope target and an electron-to-x-ray converter. | 04-04-2013 |
| 20130142296 | Apparatus and method for generating medical isotopes - An apparatus for generating medical isotopes provides an annular fissile solution vessel surrounding a neutron generator. The annular fissile solution vessel provides for good capture of the emitted neutrons and a geometry that provides enhanced stability in an aqueous reactor. A neutron multiplier and/or a neutron moderator may be used to improve the efficiency and control the criticality of the reaction in the annular fissile solution vessel. | 06-06-2013 |
| 20130163708 | Apparatus For Producing A Radioisotope Comprising Means For Maintenance And Method Of Maintenance For Said Apparatus - The present invention relates to an apparatus for producing a radioisotope by irradiating a target fluid comprising a precursor of said radioisotope with a particle beam produced by a particle accelerator, the apparatus comprising:—a housing comprising a target cavity for receiving said target fluid, said housing having an opening for allowing the passage of the said particle beam into the said cavity;—a dual foil flange for closing said opening of the target cavity, said dual foil flange comprising:—a standoff comprising a central hole;—a first and a second foil able to allow the passage of the said particle beam and located respectively on a first side and a second side of the said standoff, covering the said central hole and forming a cooling cavity;—a first flange and a second flange for sealing respectively the said first and second foil on said standoff;—at least an inlet channel and at least an outlet channel, for flowing a cooling fluid through the cavity of the dual foil flange;—guiding means for positioning said dual foil flange in an in-line position in which a said foil is facing said opening of said housing. | 06-27-2013 |
| 20130259180 | TARGET WINDOWS FOR ISOTOPE SYSTEMS - Target windows for isotope production systems are provided. One target window includes a plurality of foil members in a stacked arrangement. The foil members have sides, and wherein the side of a least one of the foil members engages the side of at least one of the other foil members. Additionally, at least two of the foil members are formed from different materials. | 10-03-2013 |
| 20130266105 | Device For Producing Radioisotopes - The invention relates to a device ( | 10-10-2013 |
| 20150332799 | METHODS AND APPARATUS FOR THE PRODUCTION OF ISOTOPES - A method for producing an isotope of interest includes providing a target including a first isotope of a target element, and bombarding the target with accelerated ions to produce in the target by nuclear reactions between the accelerated ions and the first isotope of the target element: a second isotope of the target element, wherein the second isotope of the target element is the isotope of interest or a radioisotope within a decay chain of the isotope of interest; and transmutation products of a different elemental form than the target element. | 11-19-2015 |
| 20160035448 | PRODUCTION OF CARBON-11 USING A LIQUID TARGET - The present disclosure relates to the generation of radioisotopes, includes 11-carbon, from liquid targets. In certain embodiments, a liquid hydrazine target is employed which, when irradiated, such as with a charged particle beam, generates 11-carbon in a form that may be recovered and used in downstream processes, such as the generation of radiopharmaceuticals. | 02-04-2016 |
| 20160100477 | SYSTEM AND METHODS OF A TARGET CHAMBER IN AN ISOTOPE PRODUCTION SYSTEM - A target chamber and a method for manufacturing the target chamber for a radioisotope production system is provided. The target chamber includes a cavity formed from a single sheet of metal foil enclosed by a cover. The cavity configured to contain a starting liquid and receive a particle beam that is incident upon the starting liquid thereby generating radioisotopes. | 04-07-2016 |
| 20160141062 | TARGET BODY FOR AN ISOTOPE PRODUCTION SYSTEM AND METHOD OF USING THE SAME - In accordance with one exemplary embodiment, a target body of a target system for an isotope production system is disclosed. The target body includes a target chamber having a first chamber with a first surface area and a second chamber with a second surface area greater than the first surface area. The first chamber is configured to hold a liquid target medium for bombardment by a charged particle beam. A component is coupled to the target body and configured to generate a radioactivity. | 05-19-2016 |
| 20160172065 | CREATION OF ISOTOPES USING LASER BEAMS | 06-16-2016 |
| 20170236608 | RADIOISOTOPE PRODUCTION SYSTEM AND METHOD FOR CONTROLLING THE SAME | 08-17-2017 |
| 376191000 | Alpha-neutron sources | 2 |
| 20110064179 | Advanced Fusion Fuel - Disclosed is a novel compound used as a fuel for thermonuclear fusion reactions for power generation applications. The compound is | 03-17-2011 |
| 20120087454 | PRIMARY NEUTRON SOURCE MULTIPLIER ASSEMBLY - A neutron emitting assembly, which is useful in nuclear reactors and other industrial applications, is made of a major amount of beryllium encapsulating a minor amount of | 04-12-2012 |
| 376192000 | To produce spallation reactions | 2 |
| 20120257703 | CHARGED PARTICLE GENERATOR - The present invention relates to a charged particle beam generator comprising multiple charged particle beam generator units. In particular, the present invention is concerned with apparatus for generating a high-energy, high-current proton beam such as are used in accelerator driven subcritical reactors. The present invention provides a method of generating a composite proton beam using a proton beam generator comprising multiple proton beam generator units. A negative hydrogen ion source is used to generate a beam of negative hydrogen ions in each unit. The negative hydrogen ions are stripped to create a proton beam in each unit, that is accelerated beam and guided to a common point where the beams are merged to form the composite proton beam. | 10-11-2012 |
| 376193000 | To produce fissile isotopes | 1 |
| 20110096887 | DEVICE AND METHOD FOR PRODUCING MEDICAL ISOTOPES - A hybrid nuclear reactor that is operable to produce a medical isotope includes an ion source operable to produce an ion beam from a gas, a target chamber including a target that interacts with the ion beam to produce neutrons, and an activation cell positioned proximate the target chamber and including a parent material that interacts with the neutrons to produce the medical isotope via a fission reaction. An attenuator is positioned proximate the activation cell and selected to maintain the fission reaction at a subcritical level, a reflector is positioned proximate the target chamber and selected to reflect neutrons toward the activation cell, and a moderator substantially surrounds the activation cell, the attenuator, and the reflector. | 04-28-2011 |
| 376194000 | Proton bombardment | 17 |
| 20090274259 | RADIOISOTOPE PRODUCTION GAS TARGET HAVING FIN STRUCTURE - A radioisotope production gas target for producing gas isotopes such as C-11. The radioisotope production gas target includes a target chamber that is in the shape of a hollow cylinder and has a plurality of inner fins protruding from an inner surface thereof along a length thereof, and a body that is shaped of a hollow cylinder enclosing the target chamber, and has a target gas inlet for feeding target gas to a hollow region of the target chamber, a target gas outlet for collecting the target gas after a nuclear reaction occurs, and a first coolant inlet and a first coolant outlet respectively feeding and discharging a coolant flowing along an outer surface of the target chamber, and includes a thin metal sheet in front thereof through which a beam of protons passes. | 11-05-2009 |
| 20100067640 | High-Power-Density Lithium Target for Neutron Production - A target system for producing intense epithermal and sub-MeV neutron fluxes from proton beams by the Li-7(p,n)Be-9 nuclear reaction by use of a layer of solid metallic lithium as the target material, which, in concert with a novel conical substrate to provide support and cooling, is designed to accept proton-beam power densities in excess of 1 MW m | 03-18-2010 |
| 20110200154 | PRODUCTION OF ISOTOPES USING HIGH POWER PROTON BEAMS - The invention provides for a method for producing isotopes using a beam of particles from an accelerator, whereby the beam is maintained at between about 70 to 2000 MeV; and contacting a thorium-containing target with the particles. The medically important isotope | 08-18-2011 |
| 20120321027 | METHOD AND DEVICE FOR PRODUCING TWO DIFFERENT RADIOACTIVE ISOTOPES - A method is provided for producing first and second radioactive isotopes using an accelerated particle beam that is directed to a first material and the first radioactive isotope is produced by a first nuclear reaction based on the interaction of the particle beam with the first material, said particle beam is also slowed down and subsequently directed to a second material, and the second radioactive isotope is produced by a second nuclear reaction based on the interaction of the particle beam with the second material. The effective cross-section for the induction of the first nuclear reaction at a first peak for a first particle energy is higher than an effective cross-section for the induction of the second nuclear reaction at a second peak for a second particle energy. A corresponding device includes an acceleration unit, a first exposure target having the first material and a second exposure target having the second material. | 12-20-2012 |
| 20140376677 | Process And Installation For Producing Radioisotopes - The invention relates to a method for producing a radioisotope, which method comprises irradiating a volume of radioisotope-precursor fluid contained in a sealed cell of a target using a beam of particles of a given current, which beam is produced by a particle accelerator. The target is cooled and the internal pressure in the sealed cell is measured. During the irradiation, the internal pressure (P) in the sealed cell is allowed to vary freely. The irradiation is interrupted or its intensity is reduced when the internal pressure (P) in the sealed cell departs from a first tolerated range defined depending on various parameters that influence the variation in the internal pressure in the sealed cell during the irradiation. These parameters for example comprise, for a given target, particle beam and radioisotope-precursor fluid: the degree of filling of the hermetic cell, the cooling power used to cool the given target, and the beam current (I). The invention also relates to an installation for implementing the method. | 12-25-2014 |
| 20150117584 | NEUTRON SOURCE AND NEUTRON GENERATOR - The present invention provides a novel neutron source. A neutron source ( | 04-30-2015 |
| 20160111176 | PRODUCTION OF ISOTOPES USING HIGH POWER PROTON BEAMS - The invention provides for a method for producing isotopes using a beam of particles from an accelerator, whereby the beam is maintained at between about 70 to 2000 MeV; and contacting a thorium-containing target with the particles. The medically important isotope | 04-21-2016 |
| 376195000 | With reaction product treatment (e.g., recovery, separation) | 10 |
| 20090296872 | STRUCTURE HAVING A MOUNTING MEANS - A system for automatic production of radioisotopes includes an irradiation unit connectable to a cyclotron and having an electrolytic cell; a purification unit for purifying the radioisotope formed in the irradiation unit; two conduits for transferring an irradiated and electrodissolved target from the irradiation unit to the purification unit; and a central control unit for controlling both the operating units and the transfer means. The method for producing radioisotopes is such that the target carrier is not dissolved together with the irradiated target. | 12-03-2009 |
| 20110280357 | Tc-99m PRODUCED BY PROTON IRRADIATION OF A FLUID TARGET SYSTEM - Methods for producing Tc-99m radioisotope by proton irradiation of a fluid target matrix. A method of producing Tc-99m includes irradiating a fluid target matrix comprising Mo-100 with a proton beam to transform at least a portion of Mo-100 to Tc-99m. Optionally, the fluid target matrix further includes at least one of O-18, O-16, or N-14, which upon exposure to the proton beam concurrently transform at least a portion of O-18 to F-18, at least a portion of O-16 to N-13, at least a portion of the O-16 to O-15, or at least a portion of N-14 to C-11. The method further includes isolating Tc-99m and optionally at least one of F-18, N-13, O-15, or C-11 from the irradiated fluid target matrix. An additional source of Tc-99m is available from the decay of Mo-99 that is co-produced from the Mo-100 during irradiation with the proton beam. | 11-17-2011 |
| 20110317795 | METHOD FOR PRODUCING ACTINIUM-225 AND ISOTOPES OF RADIUM AND TARGET FOR IMPLEMENTING SAME - The invention relates to the field of nuclear technology and radiochemistry, more specifically to the production and isolation of radionuclides for medical purposes. The method for producing actinium-225 and isotopes of radium comprises irradiating a solid block of metallic thorium of a thickness of 2 to 30 mm, which is contained within a hermetically sealed casing made of a material which does not react with thorium, with a flow of accelerated charged particles with high intensity. The irradiated metallic thorium is removed from the casing and is either heated with the addition of lanthanum and the distillation of radium or is dissolved in nitric acid with the recovery of actinium-225 by extraction. A target for implementing this method consists of blocks of metallic thorium of a thickness of 2 to 30 mm, which are contained within a hermetically scaled casing made of different materials which do not react with thorium. | 12-29-2011 |
| 20120170701 | PROTON ENGINE - A power generation device that converts matter into energy. A solenoid is rotated circumferentially at high speed clockwise or counter-clockwise. A coiled semi-conductor tube of similar size, which contains charged particles in gas or plasma form is rotated at high speed in the opposite direction. The hollow coil is wrapped in a conducting coil that creates a magnetic field inside it, holding the particles in place as an RF coil injects a resonant frequency to align the spins of the particles. The particles are driven at a high rate of speed into the solenoid's Magnetic field. The resulting energy output is collected. | 07-05-2012 |
| 20120307954 | METHOD AND DEVICE FOR PRODUCING A 99MTC REACTION PRODUCT - A method for producing a reaction product containing | 12-06-2012 |
| 20120314828 | METHOD AND DEVICE FOR PRODUCING 99mTc - A method for producing | 12-13-2012 |
| 20130301769 | PROCESSES, SYSTEMS, AND APPARATUS FOR CYCLOTRON PRODUCTION OF TECHNETIUM-99M - A process for producing technetium-99m from a molybdenum-100 metal powder, comprising the steps of:
| 11-14-2013 |
| 20130322587 | TRITIUM REMOVAL DEVICE FOR LITHIUM LOOP - A tritium removal device for a lithium loop comprises a neutron source ( | 12-05-2013 |
| 20140270035 | PROCESS AND APPARATUS FOR CONDENSATION REPRESSING ISOTOPE SEPARATION BY LASER ACTIVATION - Isotope enrichment by laser activation wherein a multi-isotopic element Q, like Uranium, Silicon, Carbon is incorporated into gaseous QF | 09-18-2014 |
| 20160141061 | SYSTEM AND METHOD FOR PRODUCING TECHNETIUM-99M USING EXISTING PET CYCLOTRONS - The present invention relates generally to a system and method for producing Technetium-99m. More specifically, the present invention relates to a novel method and device for modifying commercially-available, widely-used low energy positron emission tomography (PET) cyclotrons in order to produce Technetium-99m in a more efficient, less expensive manner that previously known. | 05-19-2016 |
| 376196000 | Alpha (helium nucleus) bombardment | 1 |
| 376197000 | Wherein the reaction product is an actinide or transuranium element | 1 |
| 20090257543 | PRODUCTION OF THORIUM-229 USING HELIUM NUCLEI - A method for producing | 10-15-2009 |
| 376199000 | Deuteron bombardment | 11 |
| 20090213978 | SYSTEMS AND METHODS FOR THE CYCLOTRON PRODUCTION OF IODINE-124 - The present invention relates to targets, systems and methods for the cyclotron production of | 08-27-2009 |
| 20090290674 | NUCLIDE TRANSMUTATION DEVICE AND NUCLIDE TRANSMUTATION METHOD - The present invention produces nuclide transmutation using a relatively small-scale device. The device | 11-26-2009 |
| 20090316850 | Generating short-term criticality in a sub-critical reactor - Disclosed are apparatus and method of providing accurate control of a nuclear reactor containing fuel and designed to be subcritical in the static case that has a vessel, the vessel defining a shell, and an internal volume containing the fuel. A fusion target is located in the internal volume and contains a reactive material. A pulsed source of a hydrogen isotope directs the hydrogen isotope into, but stopping within the fusion target. Each pulse of a hydrogen isotope produces a pulse of neutrons from the reactive material in the fusion target that scatter into and burn the fuel, and thereafter the reactor returns to the static case. | 12-24-2009 |
| 20120213319 | Fast Pulsed Neutron Generator - An apparatus and method for fast pulsing of a neutron generator is described in which a series of electrodes are used to first extract deuterium or tritium ions from a plasma contained within an ion source, and then either accelerate or stop the flow of ions to the source, depending upon the voltage potential applied to the downstream electrodes. In one embodiment, the extraction/gating system comprises 3 electrodes, a first extraction electrode which is maintained at the same positive potential as the ion sources, a second electrode maintained at a lower potential to extract ions from the source, and a third electrode which depending on the operational mode is maintained either at the same potential as the second electrode (for beam passage) or at a potential higher than that of the first electrode (for beam blockage). | 08-23-2012 |
| 20120263265 | NUCLIDE TRANSMUTATION DEVICE AND NUCLIDE TRANSMUTATION METHOD - A nuclide processing method which binds a first nuclide material including at least one of Cs, C, and Sr that undergoes nuclide transmutation to a surface layer of a multilayer structure body. The method heats the multilayer structure body by the heater. The method supplies deuterium gas, at atmospheric pressure supplied from a tank of deuterium, into an absorption chamber holding the multilayer structure body, and evacuates a desorption chamber holding the multilayer structure body to a vacuum level below atmospheric pressure to provide a flow of the deuterium gas that penetrates through the heated multilayer structure body and the first nuclide material bound on the multilayer structure body. | 10-18-2012 |
| 20120269309 | NUCLIDE TRANSMUTATION DEVICE AND NUCLIDE TRANSMUTATION METHOD - A nuclide processing method which binds a first nuclide material including at least one of Cs, C, and Sr that undergoes nuclide transmutation to a surface layer of a multilayer structure body. The method heats the multilayer structure body by the heater. The method supplies deuterium gas, at atmospheric pressure supplied from a tank of deuterium, into an absorption chamber holding the multilayer structure body, and evacuates a desorption chamber holding the multilayer structure body to a vacuum level below atmospheric pressure to provide a flow of the deuterium gas that penetrates through the heated multilayer structure body and the first nuclide material bound on the multilayer structure body. | 10-25-2012 |
| 20130266106 | METHODS OF GENERATING ENERGETIC PARTICLES USING NANOTUBES AND ARTICLES THEREOF - There is disclosed a method of generating energetic particles, which comprises contacting nanotubes with a source of hydrogen isotopes, such as D | 10-10-2013 |
| 20140098919 | METHOD OF CHANGING THE DIRECTION OF MOVEMENT OF THE BEAM OF ACCELERATED CHARGED PARTICLES, THE DEVICE FOR REALIZATION OF THIS METHOD, THE SOURCE OF ELECTRMAGNETIC RADIATION, THE LINEAR AND CYCLIC ACCELERATORS OF CHARGED PARTICLES, THE COLLIDER, AND THE MEANS FOR OBTAINING THE MAGNETIC FIELD GENERATED BY THE CURRENT OF ACCELERATED CHARGED PARTICLES - The inventions relate to a group that includes means for directing charged particles, enabling the acceleration and interaction thereof, and producing radiation caused by their movement, namely a method for changing the direction of an accelerated charged particle beam, a device for implementing said method, a source of undulator electromagnetic radiation, a linear and a circular charged particle accelerator, and a collider and means for producing a magnetic field created by a stream of accelerated charged particles. The method and the device for implementing same are based on the use of a curved channel ( | 04-10-2014 |
| 20140119488 | NUCLIDE TRANSMUTATION DEVICE AND NUCLIDE TRANSMUTATION METHOD - The present invention produces nuclide transmutation using a relatively small-scale device. The device | 05-01-2014 |
| 20160078971 | System And Method For Generating Molybdenum-99 And Metastable Technetium-99, And Other Isotopes - Accelerator based systems are disclosed for the generation of isotopes, such as molybdenum-98 (“99Mo”) and metastable technetium-99 (“99mTc”) from molybdenum-98 (“98Mo”). Multilayer targets are disclosed for use in the system and other systems to generate 99mTc and 98Mo, and other isotopes. In one example a multilayer target comprises a first, inner target of 98Mo surrounded, at least in part, by a separate, second outer layer of 98Mo. In another example, a first target layer of molybdenum-100 is surrounded, at least in part, by a second target layer of 98Mo. In another example, a first inner target comprises a Bremsstrahlung target material surrounded, at least in part, by a second target layer of molybdenum-100, surrounded, at least in part, by a third target layer of 98Mo. | 03-17-2016 |
| 376201000 | With reaction product treatment (e.g., recovery, separation) | 1 |
| 20140098920 | METHOD FOR THE PRODUCTION OF RENEWABLE HEAT ENERGY - The subject of the invention is a process for heat production with nuclear interactions. During the process the gas is pumped through a stack of nanoparticles in a device featuring an internal and an external chamber via an inlet and an outlet opening, and the process is initiated by heating the device. Further, the subject of the invention is a device accomplishing said process. The device has an interconnected internal chamber, and surrounding said chamber there is an external chamber having at least one inlet and one exit opening. There are nanoparticles in the internal chamber. There is an impermeable wall between the two said chambers. The internal chamber is separated from the exit opening by a heat resistant, porous ceramic wall. There is a heating element on the internal side wall. | 04-10-2014 |
