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532 results about "X ray photoemission" patented technology

X-ray photoemission spectroscopy. n. A spectroscopic technique that determines the elemental composition and bonding characteristics of the surface atoms of a substance by exposing the substance to high-intensity x-rays and analyzing the emitted radiation of the substance's electrons.

Patient positioning device and patient positioning method

The invention is intended to always ensure a sufficient level of patient positioning accuracy regardless of the skills of individual operators. In a patient positioning device for positioning a patient couch 59 and irradiating an ion beam toward a tumor in the body of a patient 8 from a particle beam irradiation section 4, the patient positioning device comprises an X-ray emission device 26 for emitting an X-ray along a beam line m from the particle beam irradiation section 4, an X-ray image capturing device 29 for receiving the X-ray and processing an X-ray image, a display unit 39B for displaying a current image of the tumor in accordance with a processed image signal, a display unit 39A for displaying a reference X-ray image of the tumor which is prepared in advance, and a positioning data generator 37 for executing pattern matching between a comparison area A being a part of the reference X-ray image and including an isocenter and a comparison area B or a final comparison area B in the current image, thereby producing data used for positioning of the patient couch 59 during irradiation.
Owner:HITACHI LTD

Patient positioning device and patient positioning method

The invention is intended to always ensure a sufficient level of patient positioning accuracy regardless of the skills of individual operators. In a patient positioning device for positioning a patient couch 59 and irradiating an ion beam toward a tumor in the body of a patient 8 from a particle beam irradiation section 4, the patient positioning device comprises an X-ray emission device 26 for emitting an X-ray along a beam line m from the particle beam irradiation section 4, an X-ray image capturing device 29 for receiving the X-ray and processing an X-ray image, a display unit 39B for displaying a current image of the tumor in accordance with a processed image signal, a display unit 39A for displaying a reference X-ray image of the tumor which is prepared in advance, and a positioning data generator 37 for executing pattern matching between a comparison area A being a part of the reference X-ray image and including an isocenter and a comparison area B or a final comparison area B in the current image, thereby producing data used for positioning of the patient couch 59 during irradiation.
Owner:HITACHI LTD

Scanning system for differential phase contrast imaging

The invention relates to the field of X-ray differential phase contrast imaging. For scanning large objects and for an improved contrast to noise ratio, an X-ray device (10) for imaging an object (18) is provided. The X-ray device (10) comprises an X-ray emitter arrangement (12) and an X-ray detector arrangement (14), wherein the X-ray emitter arrangement (14) is adapted to emit an X-ray beam (16) through the object (18) onto the X-ray detector arrangement (14). The X-ray beam (16) is at least partial spatial coherent and fan-shaped. The X-ray detector arrangement (14) comprises a phase grating (50) and an absorber grating (52). The X-ray detector arrangement (14) comprises an area detector (54) for detecting X-rays, wherein the X-ray device is adapted to generate image data from the detected X-rays and to extract phase information from the X-ray image data, the phase information relating to a phase shift of X-rays caused by the object (18). The object (18) has a region of interest (32) which is larger than a detection area of the X-ray detector (18) and the X-ray device (10) is adapted to generate image data of the region of interest (32) by moving the object (18) and the X-ray detector arrangement (14) relative to each other.
Owner:KONINKLIJKE PHILIPS ELECTRONICS NV

Apparatus and method for treatment of malignant tumors

The present invention relates to a device for simultaneously treating a tumor or cancerous growth with both hyperthermia and X-ray radiation using brachytherapy. The device includes a needle-like introducer serving as a microwave antenna. Microwaves are emitted from the introducer to increase the temperature of cancerous body tissue. The introducer is an inner conductor of a coaxial cable. The introducer contains a hollow core which houses an X-ray emitter. The X-ray emitter is connected to a high voltage miniature cable which extends from the X-ray emitter to a high voltage power source. The X-ray emitter emits ionizing radiation to irradiate cancerous tissue. A cooling system is included to control the temperature of the introducer. Temperature sensors placed around the periphery of the tumor monitor the temperature of the treated tissue.
Owner:MEDTRONIC AVE

System for carrying out and monitoring minimally-invasive interventions

There is described a system for carrying out and monitoring minimally-invasive interventions with an x-ray device, in which at least one x-ray emitter and a x-ray detector are attached to one or more robot arms of one or more multi-axis articulated-arm robots, with which they are able to be moved for recording images from different projection directions on a predeterminable path around a patient support facility. The system includes a control and evaluation unit with interfaces for catheters and devices for carrying out the minimally-invasive intervention. The control and evaluation unit is embodied for the processing of measurement and / or image data which it receives from the catheters and devices and for control of the catheters and devices for recording the measurement and / or image data. With the proposed system the workflow is covered completely and seamlessly from the examination to the therapy, especially in the treatment of tachycardial arrythmias.
Owner:SIEMENS HEALTHCARE GMBH

Angiography device and associated recording method with a mechanism for collision avoidance

The present invention involves an angiography device for examining vessels of patients having an x-ray emitter and an associated detector, having an image processing unit, an image display unit, a control unit, a collision computer and sensors. The sensors, which are fastened to the angiography device, are designed to scan the outer dimensions of the patient prior to the actual examination and during the examination. The data obtained in this way can be fed into a memory of the collision computer and the system is controllable by a software of the collision computer such that the movement of the system when the system and patient become too close can be automatically slowed down or completely stopped by means of a the control unit.
Owner:SIEMENS HEALTHCARE GMBH

Method and system for imaging using multiple offset X-ray emission points

A technique is provided for imaging a field of view using an X-ray source comprising two or more emission points. Each emission point is configured to emit a fan of radiation encompassing less than the entire field of view. The emission points are activated individually and rotate about the field of view, allowing respective streams of radiation to be emitted at various view angles about the field of view. The emission points, which may correspond to different radial regions of the field of view, may be differentially activated to emphasize a region of interest within the field of view. The multiple emission points may be extrapolated along the longitudinal axis in duplicate or offset configurations.
Owner:GENERAL ELECTRIC CO

Electron optical apparatus, x-ray emitting device and method of producing an electron beam

It is described an electron optical arrangement, a X-ray emitting device and a method of creating an electron beam. An electron optical apparatus (1) comprises the following components along an optical axis (25): a cathode with an emitter (3) having a substantially planar surface (9) for emitting electrons; an anode (11) for accelerating the emitted electrons in a direction essentially along the optical axis (25); a first magnetic quadrupole lens (19) for deflecting the accelerated electrons and having a first yoke (41); a second magnetic quadrupole lens (21) for further deflecting the accelerated electrons and having a second yoke (51); and a magnetic dipole lens (23) for further deflecting the accelerated electrons.
Owner:KONINKLIJKE PHILIPS ELECTRONICS NV

X-ray diagnostic device

There is described an X-ray diagnostic device for performing cephalometric, dental or orthopedic examinations on a patient who is seated or standing. The X-ray diagnostic device comprises an X-ray emitter and an image detector embodied as a flat-panel detector that are arranged situated opposite each other on an orbitally moveable mount. The X-ray diagnostic device further comprises means for adjusting the height of the X-ray emitter and the image detector, a digital image system for recording a projection image using rotation angiography, a device for image processing for reconstructing the projection image into a 3D volume image; and a device for correcting physical effects or artifacts for representing soft tissue in the projection image and in the 3D volume image reconstructed therefrom.
Owner:SIEMENS HEALTHCARE GMBH

System and method of CT imaging with second tube/detector patching

A CT imaging system includes a rotatable gantry having an opening to receive an object to be scanned, a first x-ray emission source attached to the rotatable gantry and configured to emit x-rays toward the object, and a second x-ray emission source attached to the rotatable gantry and configured to emit x-rays toward the object. A first detector is configured to receive x-rays that emit from the first x-ray emission source, and a second detector configured to receive x-rays that emit from the second x-ray emission source. A first portion of the first detector is configured to operate in an integration mode and a first portion of the second detector is configured to operate in at least a photon-counting mode.
Owner:GENERAL ELECTRIC CO

X-ray sources using linear accumulation

We disclose a compact source for high brightness x-ray generation. The higher brightness is achieved through electron beam bombardment of multiple regions aligned with each other to achieve a linear accumulation of x-rays. This may be achieved by aligning discrete x-ray sources, or through the use of novel x-ray targets that comprise a number of microstructures of x-ray generating materials fabricated in close thermal contact with a substrate with high thermal conductivity. This allows heat to be more efficiently drawn out of the x-ray generating material, and in turn allows bombardment of the x-ray generating material with higher electron density and / or higher energy electrons, leading to greater x-ray brightness.The orientation of the microstructures allows the use of an on-axis collection angle, allowing the accumulation of x-rays from several microstructures to be aligned to appear to have a single origin, also known as “zero-angle” x-ray emission.
Owner:SIGRAY INC

Method and apparatus for combining images

An X-ray apparatus has a tube fitted out with an X-ray emitting focus that emits intensities of X-radiation crossing the object for a multiplicity of preliminarily determined main directions of emission, along a path. The apparatus shifts the X-ray tube along a path relative to the object. The apparatus has an X-ray detector that acquires a multiplicity of data of X-ray image data representing the multiplicity of main directions of emission. The apparatus distributes the preliminarily determined intensities of X-radiation non-uniformly on the multiplicity of main directions of emission. The apparatus also processes the multiplicity of data of X-ray image data in order to obtain both a 2D image and a 3D image of the object.
Owner:GENERAL ELECTRIC CO

X-ray source with nonparallel geometry

InactiveUS20050276382A1Minimize electron electron energyMinimize loss energy lossX-ray tube electrodesX-ray tube vessels/containerSoft x rayX-ray
An improved x-ray generation system produces a converging or diverging radiation pattern particularly suited for substantially cylindrical or spherical treatment devices. In an embodiment, the system comprises a closed or concave outer wall about a closed or concave inner wall. An electron emitter is situated on the inside surface of the outer wall, while a target film is situated on the outside surface of the inner wall. An extraction voltage at the emitter extracts electrons which are accelerated toward the inner wall by an acceleration voltage. Alternately, electron emission may be by thermionic means. Collisions of electrons with the target film causes x-ray emission, a substantial portion of which is directed through the inner wall into the space defined within. In an embodiment, the location of the emitter and target film are reversed, establishing a reflective rather than transmissive mode for convergent patterns and a transmissive mode for divergent patterns.
Owner:CABOT MICROELECTRONICS CORP

Methods and apparatus for dishing and erosion characterization

The present invention includes a system for efficient and effective detection and characterization of dishing and / or erosion. An x-ray emission inducer is used to scan a target on a sample. The target can be scanned at an acute incident angle to allow characterization of the dishing and / or erosion and analysis of the metallization or thin film layer topology.
Owner:KLA TENCOR TECH CORP

Mobile computed tomography (CT) scanner and operation method thereof

The invention discloses a mobile computed tomography (CT) scanner. The mobile CT scanner comprises a bottom plate platform, a machine frame, a rotary plate, an X-ray emitting source, and a detector and data acquisition system. The bottom plate platform is provided with a linear guide rail; and one end of the machine frame is provided with a guide rail sliding block which is slidably connected with the linear guide rail, and the other end of the machine frame is connected with the rotary plate. The rotary plate can rotate relative to the machine frame. The X-ray emitting source and the detector and data acquisition system are arranged on the rotary plate and are respectively positioned at two ends of the same diameter of the rotary plate. The X-ray emitting source comprises a grid controlled carbon nano tube-based field emission cathode X-ray tube. The invention also provides an operation method for the mobile CT scanner. The mobile CT scanner is simple in structure, low in radiation dosage, and high in imaging quality, and has two purposes.
Owner:SUZHOU INST OF BIOMEDICAL ENG & TECH

Medical examination and treatment system

A medical examination and treatment system comprises a radiation source that emits particle radiation, an X-ray emitter located on one side of a target volume and diametrically opposite to the radiation source, and a detector located between the target volume and the radiation source. The target volume is positioned to be exposed to the particle radiation. A radiation direction of the X-ray emitter is oriented opposite to a radiation direction of the particle radiation.
Owner:VARIAN MEDICAL SYST PARTICLE THERAPY GMBH & CO KG

Electron optical apparatus, X-ray emitting device and method of producing an electron beam

It is described an electron optical arrangement, a X-ray emitting device and a method of creating an electron beam. An electron optical apparatus (1) comprises the following components along an optical axis (25): a cathode with an emitter (3) having a substantially planar surface (9) for emitting electrons; an anode (11) for accelerating the emitted electrons in a direction essentially along the optical axis (25); a first magnetic quadrupole lens (19) for deflecting the accelerated electrons and having a first yoke (41); a second magnetic quadrupole lens (21) for further deflecting the accelerated electrons and having a second yoke (51); and a magnetic dipole lens (23) for further deflecting the accelerated electrons.
Owner:KONINKLIJKE PHILIPS ELECTRONICS NV

Radiation imaging system, method for taking continuous radiographic image, and radiation image detecting device

In continuous radiography, while a patient stands in front of an imaging support, a total image capture field is determined. The total image capture field is divided into small image capture fields. A map scaling section scales up or down a full spine irradiation area map in accordance with the size of the total image capture field. A map dividing section divides the scaled map into small maps corresponding to the small image capture fields. In each division exposure, a detection pixel selector selects one or more detection pixels belonging to an irradiation area defined by the small map, out of all detection pixels distributed in an imaging surface of an electronic cassette. If an integration value of a detection signal from the selected detection pixel reaches a threshold value, X-ray emission is stopped. Division X-ray images obtained by the division exposures are merged into a single continuous X-ray image.
Owner:FUJIFILM CORP

X-ray inspecting apparatus and x-ray inspecting method

An X-ray inspecting apparatus capable of high-speed inspection of a prescribed inspection area of an object of inspection is provided. The X-ray inspecting apparatus includes: a scanning X-ray source for outputting X-ray; an X-ray detector driving unit on which a plurality of X-ray detectors are mounted, and capable of driving the plurality of X-ray detectors independently; and an image acquisition control mechanism controlling acquisition of image data by X-ray detector driving unit and X-ray detectors. A scanning X-ray source emits X-ray while moving the X-ray focal point of the X-ray source to each of X-ray emission originating positions set for each X-ray detector such that the X-ray passes through a prescribed inspection area of an object of inspection and enters each X-ray detector. Image pick-up by some of the X-ray detectors and movement of other X-ray detectors to an image pick-up position are executed in parallel and alternately. An image acquisition control unit acquires the image data picked-up by X-ray detectors, and a computing unit reconstructs an image in the inspection area based on the image data.
Owner:ORMON CORP

Near-field X-ray fluorescence microprobe

This invention pertains to an x-ray microprobe that can be placed very close the sample surface. A practical implementation is an x-ray target material integrated to an atomic force microscope (AFM) tip and an electron beam is focused to the target materials to generate x-ray emission. This microprobe can be combined with energy-resolved detector or a fluorescence imaging system for material analysis applications.
Owner:CARL ZEISS X RAY MICROSCOPY

Apparatus and method for conformal radiation brachytherapy for prostate gland and other tumors

A system and method providing conformal x-ray brachytherapy for treatment of tumors by irradiation of a target volume of tissue in a patient is disclosed wherein an x-ray probe including an x-ray emitter, an imaging probe configured to image the target volume, a translation stage mounting the x-ray probe for translational motion, a rotation stage mounting the x-ray probe for rotational motion, a support base mounting the x-ray and imaging probes in known relation to each other, and a computer operatively connected to the x-ray and imaging probes and the rotation and translation stages are provided to image and control the operation of the x-ray probe to irradiate the target volume according to predetermined treatment protocols.
Owner:MINNESOTA MEDICAL PHYSICS LLC

Radiation imaging apparatus and control method thereof, and radiation imaging system

An FPD detects an X-ray image of an object. The FPD includes a plurality of pixels arranged in its image capturing field. Each pixel receives X-rays emitted from an X-ray source, and outputs a pixel value in accordance with an X-ray dose applied thereto. A pixel determiner determines a minimum-value pixel out of the pixels based on the pixel values of the pixels. The minimum-value pixel is a pixel whose pixel value is the lowest. The pixel determiner sets the minimum-value pixel as an exposure control pixel. A comparator compares a first integrated value, which is an integrated value of the pixel values of the minimum-value pixel, with a predetermined first threshold value. The comparator performs X-ray emission control such that, when the first integrated value has reached the first threshold value, the X-ray source stops emitting the X-rays.
Owner:FUJIFILM CORP

Architectures for cardiac CT based on area x-ray sources

A CT imaging system includes a rotatable gantry having an opening to receive an object to be scanned having a small field-of-view (FOV) inside a large FOV. A plurality of area sources is attached to the rotatable gantry, each area source includes a plurality of x-ray emission sources, wherein the plurality of area sources are configured to emit x-rays toward the object. A plurality of x-ray detector arrays is attached to the gantry and positioned such that at least a first detector array and a second detector array each receive x-rays that pass through at least the entire small FOV of the object.
Owner:THE BOARD OF TRUSTEES OF THE LELAND STANFORD JUNIOR UNIV +1
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