Class / Patent application number | Description | Number of patent applications / Date published |
378140000 | With X-ray window or secondary radiation screen | 52 |
20080285717 | DEVICE FOR GENERATING X-RAYS HAVING A LIQUID METAL ANODE - The invention relates to a device for generating X-rays ( | 11-20-2008 |
20080310595 | THIN WALLED TUBE RADIATOR FOR BREMSSTRAHLUNG AT HIGH ELECTRON BEAM INTENSITIES - Methods and systems for generating bremsstrahlung with enhanced photon flux in a narrow cone at forward angles utilize a thin target of a high-Z material such as gold as radiator, supported on a tube of a low-Z material such as titanium, which tube contains a circulating fluid such as water which acts as a coolant and also may absorb the incident electron beam. | 12-18-2008 |
20080317209 | Gas tight radiation window, and a method for its manufacturing - A gas tight radiation window membrane comprises a layered diffusion barrier with a reactive metal layer ( | 12-25-2008 |
20090010393 | COMPACT HIGH VOLTAGE X-RAY SOURCE SYSTEM AND METHOD FOR X-RAY INSPECTION APPLICATIONS - An x-ray system is disclosed that includes a bipolar x-ray tube. The bipolar x-ray tube includes two insulators that are separated by an intermediate electrode in an embodiment, wherein each insulator forms a portion of an outer wall of a vacuum envelope of the bipolar x-ray tube surrounding at least a portion of a path of an electron beam within the vacuum envelope. In further embodiments, the bipolar x-ray tube includes a first electrode at a positive high voltage potential with respect to a reference potential, a second electrode at a negative high voltage potential with respect to the reference potential, and an x-ray transmissive window that is at the positive high voltage potential. | 01-08-2009 |
20090028297 | X-RAY TUBE AND X-RAY ANALYSIS APPARATUS - There are disclosed an X-ray tube and an X-ray analysis apparatus which are made smaller and lighter in weight than heretofore and which detect fluorescent X-rays more efficiently with enhanced sensitivity. The X-ray tube has a vacuum enclosure, an electron beam source mounted in the enclosure and emitting an electron beam, a target irradiated with the beam and producing primary X-rays, an X-ray detector device, and a metallic thermal and electrical conductor portion mounted over a part of the window and extending from the target to the enclosure. The enclosure has a vacuum inside and a window made of an X-ray transmissive film through which X-rays are transmitted. The target is smaller in outside diameter than the window and mounted over the central portion of the window such that the primary X-rays can be ejected at an external sample through the window. The detector device is disposed in the enclosure such that it can detect the fluorescent and scattering X-rays entering from the window after being released from the sample. The detector device outputs a signal carrying information about the energies of the fluorescent and scattering X-rays. | 01-29-2009 |
20090041196 | X-RAY TUBE AND X-RAY ANALYSIS APPARATUS - Provided are an X-ray tube and an X-ray analysis apparatus, which can be further reduced in size as well as in weight and more efficiently detect a fluorescent X-ray and the like to increase sensitivity. The X-ray tube includes: a vacuum casing ( | 02-12-2009 |
20090052626 | X-RAY TUBE AND NONDESTRUCTIVE INSPECTION EQUIPMENT - In an X-ray tube | 02-26-2009 |
20090086917 | X-RAY TUBE COOLING SYSTEM - X-ray tube cooling systems. In one example embodiment, an x-ray tube includes a housing, a window frame attached to the housing, and a window attached to the window frame. The housing defines an aperture through which electrons can pass from a cathode to an anode. The housing also defines an inlet port and an outlet port. The window frame defines an opening through which x-rays can pass. The window covers the opening defined by the window frame. The housing and the window frame are configured such that a liquid can flow from the inlet port to the outlet port through either a first liquid path at least partially defined by the housing or a second liquid path cooperatively defined by the housing and the window frame. The second liquid path is disposed about at least a portion of the opening in the window frame. | 04-02-2009 |
20090086918 | X-RAY TUBE WITH TRANSMISSION ANODE - An x-ray tube has a cathode that generates free electrons; an anode on which the free and accelerated electrons strikes so that x-ray radiation is generated; a cooling channel with coolant flowing therethrough to cool the anode; a vacuum region between the cathode and the anode; and an exit window through which the x-ray radiation exits from the x-ray tube. The anode is fashioned as a transmission anode; with the transmission anode arranged between the vacuum region and the cooling channel, with the cooling channel arranged between the transmission anode and the exit window; so the useful x-ray radiation passes through the coolant. | 04-02-2009 |
20090147922 | MULTI-ENERGY IMAGING SYSTEM AND METHOD USING OPTIC DEVICES - A multi-energy imaging system and method for selectively generating high-energy X-rays and low-energy X-ray beams are described. A pair of optic devices are used, one optic device being formed to emit high X-ray energies and the other optic device being formed to emit low X-ray energies. A selective filtering mechanism is used to filter the high X-ray energies from the low X-ray energies. The optic devices have at least a first solid phase layer having a first index of refraction with a first photon transmission property and a second solid phase layer having a second index of refraction with a second photon transmission property. The first and second layers are conformal to each other. | 06-11-2009 |
20090161831 | TRANSMISSION TYPE X-RAY TUBE AND MANUFACTURING METHOD THEREOF - A transmission type X-ray tube includes an electrode lead ( | 06-25-2009 |
20090238340 | X-RAY TUBE AND X-RAY SOURCE INCLUDING SAME - The present invention relates to an X-ray tube, having a structure enabling capturing of a clear magnified transmission image and enabling increase of a magnification factor of the magnified transmission image, and an X-ray source including the X-ray tube. In the X-ray tube, X-rays are generated by making electrons from an electron gun incident onto an X-ray target of an anode, disposed inside an anode housing unit, and the generated X-rays are taken out from an X-ray emission window. In particular, the anode has a straight main body and a protruding portion, extending along an axis line direction of the main body from a tip of the main body. An inclined surface, onto which the electrons emitted from the electron gun collide, and a pair of side surfaces, disposed in parallel while sandwiching the inclined surface, are formed on the protruding portion. A distance between the pair of side surfaces of the protruding portion is shorter than a width of the main body in the same direction as the distance. | 09-24-2009 |
20090268873 | X-RAY TUBE AND X-RAY SOURCE INCLUDING SAME - The present invention relates to an X-ray tube, having a structure for effectively suppressing discharge at a tip of an anode, irradiated with electrons in order to generate X-rays, and an X-ray source including the X-ray tube. In the X-ray tube, electrons emitted from an electron gun are made to collide with an X-ray target, and X-rays generated at the X-ray target due to the collision are taken out to an exterior. The X-ray tube includes: a head, defining an internal space that houses a tip of an anode; an irradiation window, transmitting the generated X-rays to the exterior; an exhaust port, disposed at an inner wall surface of a casing and being for vacuum drawing of the internal space; and a shielding structure, hiding the exhaust port from the tip of the anode. | 10-29-2009 |
20090279669 | APPARATUS FOR REDUCING KV-DEPENDENT ARTIFACTS IN AN IMAGING SYSTEM AND METHOD OF MAKING SAME - An x-ray tube includes a vacuum chamber, a cathode positioned within the vacuum chamber and configured to emit electrons, and an anode positioned within the vacuum chamber to receive the electrons emitted from the cathode and configured to generate a beam of x-rays from the electrons. The x-ray tube further includes a window positioned to pass the beam of x-rays therethrough, an electron collector structure having an aperture formed therein to allow passage of x-rays therethrough, and a layer attached to the electron collector structure and configured to at least partially absorb or reduce diffraction of x-rays that contact the layer. | 11-12-2009 |
20100046714 | Window Arrangement on a Pressure Pipe - A window arrangement on a pressure pipe, with a casing in the train or at the end of the pressure pipe, said casing featuring flanges on diametrically opposing sides having radially directed passages, whose axes are standing perpendicular to the longitudinal axis of the pressure pipe and are located in a measurement plane for an x-ray measurement device, an x-ray source being associated to the one passage on the outer side and a receiver sensitive to X-rays to the other passage, and with window plates that are transmissive for X-rays which are sealingly arranged in the associated passage and are fixed in the passage with the aid of a fastening member and which consist of a material which is resistant against high temperatures and process-due etchings by chemically aggressive substances. | 02-25-2010 |
20100046715 | X-RAY RADIATOR WITH GAS-FILLED X-RAY BEAM EXIT CHAMBER - An x-ray radiator for a medical technology x-ray apparatus, has a vacuum chamber arranged in a protective housing, in which is arranged an anode that emits an x-ray beam. The vacuum chamber is surrounded by a protective chamber formed between the protective housing and the vacuum chamber and filled with an electrically insulating liquid. A beam passage chamber filled with a gas is arranged in the protective chamber. The beam passage chamber is traversed by the x-ray beam exiting from the vacuum chamber and propagating toward the protective housing. The amount of secondary radiation generated by the x-ray radiator upon operation is thereby reduced. | 02-25-2010 |
20100046716 | X-RAY TUBE WITH BACKSCATTER PROTECTION - An x-ray tube has a vacuum housing containing an anode that generates usable x-ray radiation upon being struck by electrons generated by an electron source. The usable x-ray radiation escapes from the vacuum housing through an x-ray exit window. A backscatter electron barrier device arranged in the vacuum housing affects the backscatter electrons in the region of the usable x-ray radiation such that no backscatter electrons reach the x-ray exit window. Such an x-ray tube exhibits an invariably constant x-ray intensity and a high reliability. | 02-25-2010 |
20100061518 | MINIATURIZED SOURCE OF IONIZING ELECTROMAGNETIC RADIATION - The invention is directed to a miniaturized source ( | 03-11-2010 |
20100067664 | X-RAY GENERATING APPARATUS - According to the X-ray generating apparatus of this invention, a potential corresponding to that of a housing is applied to a first electrode, closest to a cathode, of at least two intermediate electrodes arranged between the cathode and a target. Therefore, even if the first electrode with an increased thermal capacity contacts the housing, the function of the X-ray generating apparatus will never be impaired. As a result, the first electrode is not easily restricted by structure, so that the first electrode may be enlarged as a measure for heat radiation, or that the first electrode may be placed in contact with the housing. The first electrode contacting the housing determines a positional relationship of the electron gun and housing to facilitate assembly of the X-ray generating apparatus. Further, all the potentials of the cathode, intermediate electrodes (e.g. a second electrode and a third electrode) and target will have straight polarity with respect to the potential of the first electrode, which facilitates power source control. | 03-18-2010 |
20100074410 | TRANSMISSION TYPE X-RAY TUBE AND MANUFACTURING METHOD THEREOF - A transmission type X-ray tube includes an electrode lead holding a cathode filament and a stem unit to which a sealing member, an exhaust tube, and the like are attached by brazing, and an irradiation window frame having an X-ray irradiation window attached by brazing. The other end side of the sealing member is attached to an open end of the irradiation window frame by welding. Thus, it is possible to obtain a high-quality transmission type X-ray tube having a long service life at a low cost. | 03-25-2010 |
20100195801 | Miniature, Low-Power X-Ray Tube Using A Microchannel Electron Generator Electron Source - Embodiments of the invention provide a novel, low-power X-ray tube and X-ray generating system. Embodiments of the invention use a multichannel electron generator as the electron source, thereby increasing reliability and decreasing power consumption of the X-ray tube. Unlike tubes using a conventional filament that must be heated by a current power source, embodiments of the invention require only a voltage power source, use very little current, and have no cooling requirements. The microchannel electron generator comprises one or more microchannel plates (MCPs), Each MCP comprises a honeycomb assembly of a plurality of annular components, which may be stacked to increase electron intensity. The multichannel electron generator used enables directional control of electron flow. In addition, the multichannel electron generator used is more robust than conventional filaments, making the resulting X-ray tube very shock and vibration resistant. | 08-05-2010 |
20100202590 | X-RAY TUBE WITH A CATCHING DEVICE FOR BACKSCATTERED ELECTRONS, AND OPERATING METHOD THEREFOR - An x-ray tube has a cathode and a anode, and a catching device that captures backscattered electrons from the anode in the operating state of the x-ray tube. The catching device minimizes unwanted energy generation by the backscattered electrons in the catching device and the anode while maintaining a high quality of the focus by the catching device being electrically insulated with respect to the anode and the cathode and being placed at an electrical potential having a value between the value of the electrical potential of the anode and the value of the electrical potential of the cathode, and the amount of the difference between the potential of the catching device and the potential of the anode is in the range from 1% to 40% of the amount of the difference between the potential of the cathode and the potential of the anode. | 08-12-2010 |
20110038461 | EVACUATED ENCLOSURE WINDOW COOLING - In one example, an x-ray tube includes an evacuated enclosure and an anode disposed with the evacuated enclosure. The anode is configured to receive electrons emitted by an electron emitter. The x-ray tube also includes an evacuated enclosure window disposed within a port of the evacuated enclosure. The evacuated enclosure window includes first and second axes, the first axis being relatively shorter than the second axis. The x-ray tube also includes means for directing coolant flow. The means for directing coolant flow causes coolant to flow across an exterior surface of the evacuated enclosure window in a direction substantially parallel to the first axis. | 02-17-2011 |
20110038462 | LIQUID-COOLED APERTURE BODY IN AN X-RAY TUBE - A liquid-cooled aperture body in an x-ray tube. In one example embodiment, an x-ray tube is configured to be at least partially submerged in a liquid coolant. The x-ray tube includes a cathode at least partially positioned within a cathode housing, an anode at least partially positioned within a can, and an aperture body coupling the cathode housing to the can. The can is formed from a first material and the aperture body is formed from a second material. The aperture body defines an aperture through which electrons may pass between the cathode and the anode. The aperture body further defines at least two exterior surfaces that are each configured to be exposed to the liquid coolant in which the x-ray tube is at least partially submerged. | 02-17-2011 |
20110038463 | X-RAY TUBE WITH PASSIVE ION COLLECTING ELECTRODE - An X-ray tube ( | 02-17-2011 |
20110135067 | THERMAL ENERGY STORAGE AND TRANSFER ASSEMBLY AND METHOD OF MAKING SAME - An apparatus includes an electron collector includes a body having an internal bore formed therethrough along a first direction and a window side having an aperture formed in a first portion thereof along a second direction different from the first direction. The apparatus also includes a cover plate having a bottom surface coupled to a second portion of the first surface of the electron collector, and an x-ray transmission window coupled to the cover plate and aligned with the aperture along the second direction, wherein a recess is formed along the second direction in one of the first portion of the first surface of the electron collector and a portion of the bottom surface of the cover plate, and wherein a gap is formed between the bottom surface of the cover plate and the first surface of the electron collector. | 06-09-2011 |
20110317818 | X-RAY WINDOW - A self-cleaning X-ray window arrangement is provided that includes a primary X-ray-transparent window element, separating an ambient pressure region from an intermediate region, and a secondary X-ray-transparent window element, separating the intermediate region from a reduced pressure region. A contaminant is expected to deposit on a side of the secondary element facing the reduced pressure region. A heat source is adapted to heat a portion of the secondary window element thereby evaporating contaminant. The secondary element shields the primary element from the reduced pressure region, in which contaminant is present, whereas the pressure-tight primary window element carries most of the differential pressure between the ambient pressure region and the reduced pressure region. Several features help to decrease the rate at which contaminant enters the intermediate region. By maintaining the pressure in the intermediate region close to the reduced pressure, the mechanical stress on the secondary window element can be limited as well as the exposure to harmful gases. | 12-29-2011 |
20120087476 | POLYMER LAYER ON X-RAY WINDOW - An x-ray window comprising a plurality of thin film layers stacked together, including a thin film layer and a polymer layer. The thin film layer can be diamond, graphene, diamond-like carbon, beryllium, and combinations thereof. The polymer layer can be a polyimide. A boron hydride layer may also be included. | 04-12-2012 |
20120106713 | ELECTRICALLY INSULATING X-RAY SHIELDING DEVICES IN AN X-RAY TUBE - Electrically insulating x-ray shielding devices in an x-ray tube. In one example embodiment, an x-ray tube includes an evacuated enclosure, a cathode and an anode at least partially positioned within the evacuated enclosure, and an electrically insulating x-ray shielding device proximate to the evacuated enclosure. The electrically insulating x-ray shielding device includes an oxide or nitride material having an atomic number from 57 to 74. | 05-03-2012 |
20120207279 | X-RAY TUBE - An X-ray tube has a cathode, an anode target to emit X-rays, and a vacuum envelope which houses the cathode and the anode target. The vacuum envelope has a first metal member connected to the anode target, a second metal member which is connected to the first metal member and has a coefficient of thermal expansion lower than that of the first metal member, and an electrically insulating annular ceramic member connected to the second metal member and the cathode. In addition, the X-ray tube has a cooling system which is connected to the first metal member and forms a cooling passage. Furthermore, the X-ray tube has an adapter which is in contact with the first metal member, surrounds the second metal member and has a thermal conductivity higher than that of the second metal member, and a heat-transfer medium placed between the ceramic member and the adapter. | 08-16-2012 |
20130094629 | POLYMER LAYER ON X-RAY WINDOW - An x-ray window includes a mount with a support frame and an aperture. A window film has a stack of layers including: a thin film layer comprising a material selected from the group consisting of diamond, graphene, diamond-like carbon, beryllium, and combinations thereof; a boron hydride layer; and a polymer layer. The window film, including the thin film layer, the boron hydride layer, and the polymer layer, extends across the aperture and is supported by the support frame. The window film is attached to the support frame, defining a sealed joint. The layers are capable of withstanding a differential pressure of at least 1 atmosphere. The window film is substantially transmissive to x-rays having an energy in the range of 100-20,000 electronvolts. | 04-18-2013 |
20130114794 | X-Ray Generation Device - Provided is an X-ray generation device including an X-ray tube and a high-voltage generation unit arranged inside a housing and also having insulating oil filled in the housing, which uses no lead and is small in size, thereby achieving a reduction in manufacturing cost, and which also has high cooling performance. An X-ray generation device | 05-09-2013 |
20130156161 | X-RAY TUBE APERTURE HAVING EXPANSION JOINTS - An x-ray tube electron shield is disclosed for interposition between an electron emitter and an anode configured to receive the emitted electrons. The electron shield includes expansion joints to accommodate thermal expansion. | 06-20-2013 |
20130230147 | X-Ray Tube - An X-ray tube is disclosed. The X-ray tube includes a substrate, a box-shaped case attached to the substrate and being in a high-vacuum state, an X-ray target arranged in the opening of the first substrate in the inside of the case, and a cathode arranged in the case and supplying an electron to the X-ray target. The substrate includes first and second substrates made of 426 alloy and respectively having an opening of honeycomb structure, and an X-ray transmissive window sandwiched between the first and second substrates which is made of a titanium foil and close the opening. The X-ray transmissive window is reinforced by a honeycomb structure of the substrate from both surfaces. Thus, the substrate and the X-ray transmissive window are not deformed, and strength of the package is improved. | 09-05-2013 |
20140056413 | COMPOSITE X-RAY TRANSMISSIVE WINDOWS - Composite x-ray transmissive windows. In one example embodiment, an x-ray transmissive window is configured to be positioned in an outer housing of an x-ray device. The x-ray transmissive window includes a composite material. | 02-27-2014 |
20140093047 | X-ray Tube - An X-ray tube includes a radiopaque substrate including a window portion, an X-ray transmission window closing the window portion, an X-ray target provided at the window portion from an inner surface side of the substrate, a highly-evacuated container portion attached to the inner surface of the substrate, a cathode, a first control electrode and a second control electrode provided inside the container portion. A shielding electrode is provided at the inner surface of the substrate so as to surround the window portion. Electrons collide with the X-ray target to generate X-rays. Electrons reflected on the X-ray target between the shielding electrodes are absorbed by the shielding electrodes, so an inner surface of the container portion is not charged. The electron emission from the cathode is not affected by the reflected electrons, so a change in target current is small, and thus X-rays of substantially constant intensity can be radiated. | 04-03-2014 |
20140126702 | X-RAY EMITTER - An X-ray emitter is suitable for evenly sterilizing large volumes of material in a short time, the emitter having an elongated X-ray target window and correspondingly elongated electron source mounted in a vacuum chamber. The electrons from the electron source are accelerated towards the X-ray target window, which generates X-rays directed outward from the vacuum chamber when irradiated by electrons from within the vacuum chamber. The elongated form of the electron source ensures that an evenly distributed beam of electrons, with a substantially constant linear distribution over the length of the electron source, arrives at the elongated X-ray target window such that a correspondingly even distribution of X-rays is generated from the X-ray target window. The X-ray target window includes a support substrate, and carries an X-ray target layer made of a target material such as tantalum or tungsten on its inner surface. A process for manufacturing the X-ray emitter is also described. | 05-08-2014 |
20140133635 | GRAPHITE BACKSCATTERED ELECTRON SHIELD FOR USE IN AN X-RAY TUBE - The present invention is a shielded anode having an anode with a surface facing an electron beam and a shield configured to encompass the anode surface. The shield has at least one aperture and an internal surface facing the anode surface. The shield internal surface and anode surface are separated by a gap in the range of 1 mm to 10 mm. The shield of the present invention is fabricated from a material, such as graphite, that is substantially transmissive to X-ray photons. | 05-15-2014 |
20140177809 | X-RAY SYSTEM WINDOW WITH VAPOR DEPOSITED FILTER LAYER - An x-ray system includes x-ray tube containing a cathode which supplies electrons and an anode which can be maintained at high positive electrical potential to the cathode and has a target area which is impacted by electrons from the cathode when the positive potential is maintained generating x-rays. The x-ray tube is enclosed in a radiation resistant casing. The radiation resistant casing has a window which allows some of the x-rays generated at the target area to exit the system. The window has a vapor deposited layer of a filtering metal of sufficient thickness to effectively condition the x-rays passing through the window and located to intercept the x-rays passing through the window. | 06-26-2014 |
20140270088 | COMPACT X-RAY GENERATION DEVICE - An x-ray transmitter, which may be compact, may be in the form of a housing with an x-ray transparent window sputtered with a metal on one wall, and tribocharging electron source on another wall. | 09-18-2014 |
20140314209 | MULTI-TARGET X-RAY TUBE WITH STATIONARY ELECTRON BEAM POSITION - A transmission x-ray tube comprising an end window hermetically sealed to a flexible coupling. The flexible coupling can allow the window to shift or tilt in one direction or another direction to allow an electron beam to impinge upon one region of the window or another region of the window. | 10-23-2014 |
20140362976 | X-RAY TUBE - Provided is an X-ray tube which can perform stable X-ray radiation under a desired condition in a radiation region extending in a predetermined direction. Included are a base plate having an opening portion and made of alloy 426, an X-ray transmission window made of titanium foil and arranged to close the opening portion of the base plate, a flat box-like vessel portion attached to the base plate and inside of which is in a vacuum state, an X-ray target provided at the opening portion in the vessel portion, and an electron source injecting electrons to the X-ray target in the vessel portion. The electron source includes a liner cathode, a first control electrode pulling out electrons from the cathode and a second control electrode restricting radiation range of the pulled-out electrons. At this time, X-rays emitted from the X-ray window spreads radially from opening shape of the opening portion. | 12-11-2014 |
20140369476 | DEVICE FOR GENERATING X-RAYS HAVING A LIQUID METAL ANODE - A device for generating X-rays includes at least one electron source for the emission of an electron beam that defines a plane having a predetermined width value in a width dimension and a predetermined length value in a length dimension. The width dimension is substantially perpendicular to the length dimension. The device also includes at least one window frame at least partially defining at least one liquid metal flow path. The device further includes at least one electron window coupled to the at least one window frame. The at least one electron window is positioned within the at least one liquid metal flow path and is configured to receive the electron beam. The at least one electron window emits X-rays in response to an incidence of electrons thereon. The at least one electron window includes a surface curved in at least one of the width dimension and the length dimension. | 12-18-2014 |
20150063548 | X-RAY RADIATION SOURCE - In an X-ray radiation source, a lid part is fastened to a main part with screws, so that an X-ray tube is secured to a housing while being pressed against an inner surface of the wall part a by a first circuit board. The X-ray tube can be secured stably within the housing by thus being held between the first circuit board and the wall part. The X-ray radiation source uses the first circuit board incorporated in the housing itself for pressing the X-ray tube. This makes it unnecessary to provide new members for pressing the X-ray tube and can prevent the device structure from becoming complicated. | 03-05-2015 |
20150103979 | X-RAY GENERATOR - An object of the invention is to provide an X-ray generator having a simple configuration where heat generated in the irradiation window can be prevented from conducting to a desired portion in accordance with the purpose of use, the method of use or the structure of the X-ray tube. In an X-ray generator for releasing X-rays generated by irradiating a target placed in a vacuumed atmosphere within an X-ray tube with an electron beam from an electron source through an irradiation window of the X-ray tube, the irradiation window has thermal anisotropy where the thermal conductivity is different between the direction in which the irradiation window spreads and the direction of the thickness of the irradiation window, and therefore, the thermal conductivity in the direction in which the heat from the irradiation window is desired not to conduct is made relatively smaller. | 04-16-2015 |
20150139404 | HIGH POWER X-RAY TUBE HOUSING - An x-ray housing can include: a finned housing member having a tubular body with an external fin array on a finned external surface and an internal fin array on a finned internal surface, the finned internal surface defining a finned housing lumen, the internal fin array and external fin array cooperatively forming a heat exchanger; and an apertured housing member having a tubular body with an x-ray window aperture extending therethrough from an external surface to an internal surface, the internal surface defining an apertured housing lumen, the finned housing member having an annular end integrally coupled with an annular end of the apertured housing member to form a tubular x-ray housing having an x-ray housing lumen. | 05-21-2015 |
20150146866 | COATED X-RAY WINDOW - An X-ray window includes a primary and a secondary window element. In order to evaporate debris by ohmic heating, current flows through the secondary (upstream) window element. Meanwhile, electric charge originating from electron irradiation and/or depositing charged particles is to be drained off the secondary window element via a charge-drain layer. To prevent large debris particles from short-circuiting the secondary window element, the current for heating the window element flows through heating circuitry which is electrically insulated from the charge-drain layer. | 05-28-2015 |
20150357149 | METHOD AND SYSTEM FOR A PIEZOELECTRIC HIGH VOLTAGE X-RAY SOURCE - A system and method for generating X-rays are provided. The X-ray source includes an X-ray chamber including a sidewall formed of a piezoelectric material at least partially surrounding an evacuated chamber, a cathode positioned at a first end of the evacuated chamber, an anode positioned at a second opposite end of the evacuated chamber, and a window positioned at the second end, the window substantially transparent to X-ray radiation. The window includes a target layer at least partially covering a surface of the window. The target layer is configured to receive a flow of electrons from the cathode and to generate a flow of X-rays from an interaction with the flow of electrons. The X-ray source includes an actuator coaxially aligned with the X-ray chamber and configured to generate a stress in the sidewall. | 12-10-2015 |
20150371808 | X-RAY SOURCE - An X-ray source with optical indication of radiation, which can be used in various measuring devices for parameters control and visualization of structure of industrial and biological objects, is proposed. The source comprises a vacuum housing, an anode irradiated by electrons and generating the divergent flux of radiation, an exit window for X-ray radiation, means for optical indication of X-ray radiation beam including a source of optical radiation and an optical mirror. The anode is made composite in the form of a thin film and a radiolucent substrate luminescent in the optical range. The anode structure is an exit window of the source, and behind it the coaxially arranged means of collimation and focusing of X-ray and optical radiation and means of optical visualization of X-ray focus are mounted. The proposed device significantly increases the accuracy and informativity of optical indication of X-ray radiation parameters. | 12-24-2015 |
20160029469 | COMPACT X-RAY GENERATION DEVICE - An x-ray transmitter, which may be compact, may be in the form of a housing with an x-ray transparent window sputtered with a metal on one wall, and tribocharging electron source on another wall. | 01-28-2016 |
20160163497 | X-RAY ASSEMBLIES AND COATINGS - The disclosed subject matter includes devices and methods relating to anode assemblies and/or X-ray assemblies. In some aspects, a method of forming an X-ray assembly may include providing an anode base formed of a first material and including a first end. The method may include depositing a second material different from the first material over a first surface of the anode base to form a coated portion of the anode base. The coated portion may be configured such that some backscattered electrons do not travel beyond the coated portion. | 06-09-2016 |
20160163499 | X-RAY TUBE DEVICE - An X-ray tube device in one embodiment has an X-ray tube and a container storing the X-ray tube, filled with insulating oil, and having an X-ray emission window. The X-ray tube includes a cylindrical glass envelope holding an anode and a cathode opposite to each other and keeping them in vacuum, and an insulating tube fit over the glass envelope and having an X-ray transmission section. The insulating tube has a base section attached to the container. The base section defines a space communicating between the X-ray transmission section of the insulating tube and the X-ray emission window of the container, and has a container-side end fixed to the container in a liquid-tight manner. | 06-09-2016 |