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59results about "X-ray tube windows" patented technology
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Focusable and steerable micro-miniature x-ray apparatus
ActiveUS20050105690A1Inexpensive to fabricateUse disposableX-ray tube windowsHandling using diaphragms/collimetersX-rayEngineering
A micro-miniature x-ray apparatus comprises: a first chip subassembly including a source of x-rays including both Bremsstrahlung photons and characteristic x-rays; a second chip subassembly including a filter for transmitting the characteristic x-rays and blocking the Bremsstrahlung photons; a third chip subassembly including a movable element for focusing or collimating the transmitted characteristic x-rays into a beam and means for controlling the position of the focusing element. In one embodiment, the controlling means include a micro-electromechanical system (MEMS). In another embodiment, the position of the movable element determines how the x-ray beam is steered to the focal area. In still another embodiment, the x-ray source includes a field emitter electron source and a target responsive to the electrons for generating x-rays. In this case, the x-ray beam is also steered by selectively energizing the anode segments. In yet another embodiment, the movable element includes a Fresnel zone plate; in still another embodiment it includes an array of poly-capillaries. Advantageously, our x-ray source, including its focusing, collimating and steering components, can be fabricated small enough to be mounted at the end of a catheter. In addition, in some embodiments it can also fabricated sufficiently inexpensively to be disposable after each use.
Owner:LUCENT TECH INC
X-ray radiation window with carbon nanotube frame
An x-ray transmissive window comprises a plurality of carbon nanotubes arranged into a patterned frame. At least one transmission passage is defined in the patterned frame, the transmission passage extending from a base of the patterned frame to a face of the patterned frame. A film is carried by the patterned frame, the film at least partially covering the transmission passage while allowing transmission of x-rays through the transmission passage.
Owner:BRIGHAM YOUNG UNIV
X-ray radiation window with carbon nanotube frame
An x-ray transmissive window comprises a plurality of carbon nanotubes arranged into a patterned frame. At least one transmission passage is defined in the patterned frame, the transmission passage extending from a base of the patterned frame to a face of the patterned frame. A film is carried by the patterned frame, the film at least partially covering the transmission passage while allowing transmission of x-rays through the transmission passage.
Owner:BRIGHAM YOUNG UNIV
Digitally addressed flat panel x-ray sources
InactiveUS20100189223A1Reduce X-ray fluxRemove heatX-ray tube windowsRadioactive sourcesUltrasound attenuationX-ray
An apparatus and method for the X-ray irradiation of materials is provided. This apparatus includes an irradiation chamber, a number of flat electromagnetic (X-ray) sources having a number of addressable cathode emitters, a support mechanism, a heat transfer system, a shielding system, and a process controller. A shielded portal within the shielding system allows access to an interior volume of the irradiation chamber. The electromagnetic sources are positioned on or embedded within interior surfaces of the irradiation chamber. These electromagnetic sources generate an electromagnetic flux, such as an X-ray flux, where this flux is used to irradiate the interior volume of the irradiation chamber and any materials placed therein. The operation of the electromagnetic sources and the number of addressable cathode emitters being controlled by the process controller. The materials placed within the interior of the chamber may be supported by a low attenuation support mechanism. This low attenuation support mechanism does not substantially reduce the X-ray flux intended to irradiate the materials placed within the interior volume of the irradiation chamber.
Owner:STELLARRAY
X-ray tube and x-ray analyzing apparatus
InactiveUS20080181365A1Efficient executionHigh sensitivityX-ray spectral distribution measurementMaterial analysis using wave/particle radiationSoft x rayBeam source
To be able to achieve further small-sized formation and light-weighted formation and to promote a sensitivity by further efficiently detecting a fluorescent X-ray or the like in an X-ray tube and an X-ray analyzing apparatus, there are provided a vacuum cabinet 2 inside of which is brought into a vacuum state and which includes a window portion 1 formed by an X-ray transmitting film through which an X-ray can be transmitted, an electron beam source 3 installed at inside of the vacuum cabinet 2 for emitting an electron beam e, a target T generating a primary X-ray X1 by being irradiated with the electron beam e and installed at inside of the vacuum cabinet 2 to be able to emit the primary X-ray X1 to an outside sample S by way of the window portion 1, and an X-ray detecting element 4 arranged at inside of the vacuum cabinet 2 to be able to detect a fluorescent X-ray and a scattered X-ray X2 emitted from the sample S and incident from the window portion 1 for outputting a signal including energy information of the fluorescent X-ray and the scattered X-ray X2.
Owner:HITACHI HIGH TECH SCI CORP
Panoramic irradiation system using flat panel x-ray sources
InactiveUS20100189222A1Smoothing out flux distributionHigh currentRadiation/particle handlingX-ray tube electrodesX-rayIrradiation
The present disclosure describes a panoramic irradiator comprising at least one X-ray source inside a shielded enclosure, the one or more sources each operable to emit X-ray flux across an area substantially equal to the proximate facing surface area of material placed inside the enclosure to be irradiated. The irradiator may have multiple flat panel X-ray sources disposed, designed or operated so as to provide uniform flux to the material being irradiated. The advantages of the irradiator of the present disclosure include compactness, uniform flux doses, simplified thermal management, efficient shielding and safety, the ability to operate at high power levels for sustained periods and high throughput.
Owner:STELLARRAY
X-Ray Tool for an Oilfield Fluid
An x-ray tool for determining a characteristic of an oilfield fluid. The tool may include a generator portion housing a collimator about a target from which x-rays are emitted. In this manner x-rays may be attenuated right at the target such that a majority of shielding otherwise necessary for safety concerns may be eliminated. Rather, by employing the target within the collimator, shielding of the generator may be limited to a single shielding plate within the generator portion that is positioned parallel to the target at the opposite end of an x-ray tube therebetween. As a result of this configuration, an x-ray tool for analysis of oilfield fluids may be provided with a minimum weight of shielding material. Thus, hand-held user friendly embodiments may be safely employed at the oilfield.
Owner:SCHLUMBERGER TECH CORP
X-ray window with beryllium support structure
InactiveUS20110121179A1High strengthMinimal contaminationRadiation/particle handlingElectrode and associated part arrangementsX-rayPolymer thin films
A high strength window for a radiation detection system has a plurality of ribs comprising beryllium material. There are openings between the plurality of ribs. The tops of the ribs terminate generally in a common plane. The high strength window also has a support frame around a perimeter of the ribs. A layer of thin polymer film material is disposed over and spans the plurality of ribs and openings to pass radiation therethrough. A radiation detection system comprises a high strength window as described above and a sensor behind the window. The sensor is configured to detect radiation that passes through the window.
Owner:MOXTEK INC
X-ray tool for an oilfield fluid
An x-ray tool for determining a characteristic of an oilfield fluid. The tool may include a generator portion housing a collimator about a target from which x-rays are emitted. In this manner x-rays may be attenuated right at the target such that a majority of shielding otherwise necessary for safety concerns may be eliminated. Rather, by employing the target within the collimator, shielding of the generator may be limited to a single shielding plate within the generator portion that is positioned parallel to the target at the opposite end of an x-ray tube therebetween. As a result of this configuration, an x-ray tool for analysis of oilfield fluids may be provided with a minimum weight of shielding material. Thus, hand-held user friendly embodiments may be safely employed at the oilfield.
Owner:SCHLUMBERGER TECH CORP
X-ray tube and X-ray analyzing apparatus
InactiveUS7680248B2Increased sensitivityEfficient detectionX-ray spectral distribution measurementMaterial analysis using wave/particle radiationSoft x rayBeam source
Owner:HITACHI HIGH TECH SCI CORP
X-ray system for irradiating material used in transfusions
InactiveUS7706506B1Improve uniformityReduce necessityRadiation/particle handlingX-ray tube anode coolingShaped beamHigh energy
A system for irradiating material used in transfusions. The material can be pre-transfused blood, blood components and marrow. The system includes a vacuum chamber with a plate cathode inside. The cathode has a large beam electrode field-electron emissive surface with a selected cross-sectional shaped area. A power supply is connected to the cathode for generating negative high-voltage pulses and causing a selected cross-sectional shaped beam of electrons to be emitted. An electron window is also disposed inside the vacuum chamber and made of thin metal foil. The electron window receives the selected cross-sectional shaped beam of electrons therethrough and onto an electron target disposed outside the vacuum chamber. The electron target receives the selected cross-sectional shaped beam of electrons thereon and generates a selected cross-sectional shaped X-ray beam. A cathode filter is disposed next to the electron target and eliminates low energy beams from the spectrum of the X-ray beam. The filtered X-ray beam exposes the material to high energy beams for irradiation.
Owner:APPLIED X RAD TECH
Sample viscosity and flow control for heavy samples, and X-ray analysis applications thereof
ActiveUS9057685B2Overcomes shortcomingHigh trafficX-ray spectral distribution measurementMaterial analysis using wave/particle radiationExcitation beamLight beam
An x-ray analysis system having an x-ray engine with an x-ray source for producing an x-ray excitation beam directed toward an x-ray analysis focal area; a sample chamber for presenting a sample stream to the x-ray analysis focal area, the analysis focal area disposed within a sample analysis area defined within the chamber; an x-ray detection path for collecting secondary x-rays and directing the x-rays toward a detector; an x-ray transparent barrier on a wall of the chamber through which the x-rays pass; and a blocking structure partially blocking the sample analysis area, for creating sample stream turbulence in the sample analysis area and over the barrier. The blocking structure may be disposed asymmetrically about a central axis of the x-ray analysis focal area and / or the sample analysis area; and may be a rounded pin. A heating element may be used to heat the sample stream for improving flow.
Owner:X-RAY OPTICAL SYSTEM INC
Flat panel x-ray source
InactiveUS20130272503A1Generation of X-rayHigh energyRadiation/particle handlingX-ray tube electrodesX-rayRadiation imaging
A radiation source which can emit X-ray flux using electron beam currents from a cathode array formed on the window through which the radiation will exit the source. The source can be made in formats which are compact or flat compared with prior art radiation sources. X-ray flux produced by the source can be used for such purposes as radiation imaging, sterilization, decontamination of biohazards or photolithography.
Owner:STELLARRAY
Apparatus for reducing KV-dependent artifacts in an imaging system and method of making same
ActiveUS7796737B2Reducing kV dependent image artifactAvoid combiningX-ray tube windowsX-ray tube vessels/containerX-rayVacuum chamber
An x-ray tube includes a cathode positioned within a vacuum chamber and configured to emit electrons. The x-ray tube includes an anode positioned within the vacuum chamber to receive electrons emitted from the cathode and configured to generate a beam of x-rays from the electrons, a window positioned to pass the beam of x-rays therethrough, and an electron collector structure attached to the x-ray tube having an aperture formed therethrough to allow passage of x-rays therethrough. The aperture is shaped to prevent diffracted x-rays from combining with the beam of x-rays passing through the window.
Owner:GENERAL ELECTRIC CO
Rotary anode X-ray tube device
A rotary anode X-ray tube device includes an X-ray tube equipped with an X-ray output window from which an X-ray is to be outputted, a housing which accommodates the X-ray tube and is filled with a cooling liquid for cooling the X-ray tube, a circulation pump which circulates the cooling liquid filled in the housing, and a subsidiary ejection pipe which guides the cooling liquid circulated by means of the circulation pump to form a flow of the cooling liquid along the X-ray output window, at a position that corresponds to the X-ray output window.
Owner:KK TOSHIBA +1
Self contained irradiation system using flat panel x-ray sources
ActiveUS20100189221A1Smoothing out flux distributionHigh currentRadiation/particle handlingX-ray tube electrodesX-rayIrradiation
The present disclosure describes a self-contained irradiator comprising at least one X-ray source inside a shielded enclosure, the one or more sources each operable to emit X-ray flux across an area substantially equal to the proximate facing surface area of material placed inside the enclosure to be irradiated. The irradiator may have multiple flat panel X-ray sources disposed, designed or operated so as to provide uniform flux to the material being irradiated. The advantages of the irradiator of the present disclosure include compactness, uniform flux doses, simplified thermal management, efficient shielding and safety, the ability to operate at high power levels for sustained periods and high throughput.
Owner:STELLARRAY
Sample viscosity and flow control for heavy samples, and x-ray analysis applications thereof
ActiveUS20130044858A1Overcomes shortcomingEnhanced advantageMaterial analysis using wave/particle radiationX-ray spectral distribution measurementSoft x rayExcitation beam
An x-ray analysis system having an x-ray engine with an x-ray source for producing an x-ray excitation beam directed toward an x-ray analysis focal area; a sample chamber for presenting a sample stream to the x-ray analysis focal area, the analysis focal area disposed within a sample analysis area defined within the chamber; an x-ray detection path for collecting secondary x-rays and directing the x-rays toward a detector; an x-ray transparent barrier on a wall of the chamber through which the x-rays pass; and a blocking structure partially blocking the sample analysis area, for creating sample stream turbulence in the sample analysis area and over the barrier. The blocking structure may be disposed asymmetrically about a central axis of the x-ray analysis focal area and / or the sample analysis area; and may be a rounded pin. A heating element may be used to heat the sample stream for improving flow.
Owner:X-RAY OPTICAL SYSTEM INC
X-ray generating device
InactiveUS20050141670A1Economically manufacturedAccurate focusX-ray tube electrodesX-ray tube windowsX-rayHigh intensity
An X-ray generating device comprises a focal electrode (10) placed adjacent to the cathode (9) and provided with a focal aperture (10a) aligning with the cathode. A positive voltage is applied to the focal electrode relative to the cathode so that equipotential lines around the focal aperture may bulge toward the X-ray target (2). Thereby, the part of the electron beam having a large diverging angle is captured by the focal electrode, and only the part of the electron beam having a uniform diverging angle is allowed to pass through the focal aperture so that the electron beam can be favorably micro focused upon the X-ray target and can be given with a high intensity.
Owner:SHOWA OPTRONICS
High-reliability security check ceramic X-ray tube
ActiveCN105869975AAvoid breakingReduce accumulationX-ray tube anode coolingX-ray tube electrodesButt jointSecurity check
The invention relates to key parts in detection equipment, in particular to a high-reliability security check ceramic X-ray tube. The high-reliability security check ceramic X-ray tube comprises an anode assembly and a cathode assembly. An anode head in the anode assembly and a focusing disc in the cathode assembly are oppositely arranged. The high-reliability security check ceramic X-ray tube is characterized in that the anode assembly and the cathode assembly are assembled into a whole in a butt joint mode through a ceramic shell, the anode head and the focusing disc are arranged in the ceramic shell, the anode assembly is provided with a ray output window located outside the ceramic shell, the anode head is of a conical head structure, the focusing disc is provided with a small circular cavity and a large circular cavity and is of a cap structure, the large circular cavity is located at the outer end and is opposite to the anode head, the inner diameter of the large circular cavity is larger than the largest outer diameter of the anode head, and a water cooling sleeve is additionally installed at the tail end of the anode head. The high-reliability security check ceramic X-ray tube solves the problem that an existing security check tube is poor in reliability and short in service life, and is mainly used for various security check devices.
Owner:HUANGSHI SHANGFANG INSPECTION EQUIP +1
X-ray generating tube, X-ray generating apparatus and X-ray imaging system using the same
InactiveUS9230774B2Improve pressure resistanceSimple structureX-ray tube electrodesX-ray tube windowsElectricityX-ray
Owner:CANON KK
Radiation tube and radiation imaging system
InactiveUS20120134463A1Without affecting cost and sizeImprove cooling effectImaging devicesX-ray tube electrodesRadiation imagingX-ray
An X-ray tube has a cathode, a rotating anode, and a case for enclosing the cathode and the rotating anode. The rotating anode generates X-rays due to emission of electron beams from the cathode. The case includes a vacuum envelope for enclosing the cathode and the rotating anode, and a housing for enclosing the vacuum envelope. Inside of the vacuum envelope is maintained vacuum. The vacuum envelope has an X-ray passing portion for passing the X-rays therethrough. The housing is provided with a radiation window for radiating the X-rays, passed through the X-ray passing portion, to the outside of the case. The radiation window includes an opening and a multi-slit arranged in the opening. The multi-slit partly shields the X-rays, generated by the rotating anode, to form a plurality of virtual linear light sources.
Owner:FUJIFILM CORP
X-ray tube adopting titanium window structure
InactiveCN106783489AImprove ductilityGood welding performanceX-ray tube windowsX-ray tube vessels/containerExtensibilityFiltration
The invention discloses an X-ray tube adopting a titanium window structure. The X-ray tube comprises a casing, an anode assembly and a cathode assembly, wherein the anode assembly further comprises an anode cap and an anode target assembly, and the anode target assembly is welded with the anode cap; the anode assembly further comprises a titanium window which surrounds and is welded at an exit window of the anode cap. A titanium tape is taken as the exit window of the X-ray tube, can realize equivalent inherent filtration with a beryllium window in a certain thickness, has good extensibility and welding performance and can be tightly connected with the anode cap with the large exit window, and the X-ray tube can output X rays at the large radiation angle and meets the demands of X-ray inspection equipment for the large radiation angle of rays.
Owner:THE FIRST RES INST OF MIN OF PUBLIC SECURITY +1
Braze assembly with beryllium diffusion barrier and method of making same
A bonded assembly includes a member, and a substrate comprising beryllium, the substrate configured to be bonded to the member. The bonded assembly includes a first barrier applied to a surface of the substrate, a second barrier applied to a surface of the first barrier, a bonding material disposed between the second barrier and the member, and wherein the second barrier is configured to prevent dissolution of the first barrier into the bonding material.
Owner:GENERAL ELECTRIC CO
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.
Owner:GENERAL ELECTRIC CO
Focusable and steerable micro-miniature x-ray apparatus
ActiveUS7042982B2Inexpensive to fabricateStability-of-path spectrometersBeam/ray focussing/reflecting arrangementsX-rayEngineering
Owner:LUCENT TECH INC
Forward Flux Channel X-ray Source
ActiveUS20150262783A1Improve conversion efficiencyIncreased x-ray flux outputX-ray tube electrodesX-ray tube windowsSoft x rayLight beam
This invention provides a source of x-ray flux in which x-rays are produced by e-beams impacting the inner walls of holes or channels formed in a metal anode such that most of the electrons reaching the channel impact an upper portion of said channel. A portion of the electrons from this primary impact will generate x-rays. Most of the electrons scatter but they continue to ricochet down the channel, most of them generating x-rays, until the beam is spent. A single channel source of high power efficiency and high power level x-rays may be made in this way, or the source can be of an array of such channels, to produce parallel collimated flux beams of x-rays.
Owner:STELLARRAY
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.
Owner:GENERAL ELECTRIC CO
Radiation generating apparatus and radiation image taking system
InactiveUS20140010348A1Reduce shadowsIncrease in size of apparatusRadiation/particle handlingX-ray tube windowsFluenceOptoelectronics
Provided is a radiation generating apparatus, including a radiation generating unit for emitting radiation through a transmission window, and a light projecting / sighting device including a light source for emitting visible light and a reflection mirror. At least one of the transmission window and the reflection mirror has variations in thickness for reducing shading of radiation which irradiates a radiation irradiation field.
Owner:CANON KK
X-ray generating tube, x-ray generating apparatus and x-ray imaging system using the same
InactiveUS20140362974A1Improve pressure resistanceSimple structureX-ray tube electrodesX-ray tube windowsElectricitySoft x ray
Provided is an X-ray generating tube with improved withstand voltage property by a simple structure, the X-ray generating tube including a cathode connected to one opening of an insulating tube and an anode connected to the other opening, in which a resistive film having a lower sheet resistance value than that of the insulating tube is disposed on an outer periphery of the insulating tube, and the cathode and the anode are electrically connected to each other via the resistive film.
Owner:CANON KK
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