Abstract: Versatile, multimode radiographic systems and methods utilize portable energy emitters and radiation-tracking detectors. The x-ray emitter may include a digital camera and, optionally, a thermal imaging camera to provide for fluoroscopic, digital, and infrared thermal imagery of a patient for the purpose of aiding diagnostic, surgical, and non-surgical interventions. The emitter may cooperative with an inventive x-ray capture stage that automatically pivots, orients and aligns itself with the emitter to maximize exposure quality and safety. The combined system uses less power, corrects for any skew or perspective in the emission, allows the subject to remain in place, and allows the surgeon's workflow to continue uninterrupted.

Abstract: The present invention relates to a device for curing resin-impregnated lining tubes using high-energy radiation, comprising at least two radiation sources for generating high-energy radiation, wherein the device has a front end, a rear end, two oppositely situated side ends, a top end, and a bottom end, wherein a length of the device from the front end to the rear end is smaller in a transport state than in an operating state. At least one element of the device is foldably, displaceably, rotatably, and/or movably supported, and at least one first radiation source is situated farther from at least one additional radiation source in the operating state than in the transport state. The device includes a fastening point on which a tensile force can act, in particular in the longitudinal direction of the device in order to transfer the device from the transport state into the operating state.

Abstract: An X-ray imaging apparatus includes an X-ray generator configured to transmit X-rays to an object, an X-ray detector configured to detect the X-rays transmitted through the object and convert the detected X-rays into electrical signals, a gantry in which the X-ray generator and the X-ray detector are installed so as to be opposite to each other, the gantry being rotatable about a bore, a controller configured to control a rotation of the gantry during bio-signal cycles of the object so that the gantry is rotated from different start positions whenever one of the bio-signal cycles is started, and an image processor configured to generate a 4D image of the object by applying a prior image-based compressed sensing image reconstruction algorithm to plural 2D projection images acquired from the electrical signals generated by converting the X-rays detected during the rotation of the gantry.

Abstract: A particle beam treatment apparatus including a rotating gantry that revolves and displaces an irradiation port for irradiating a radiation treatment room provided inside of the rotating gantry with a charged particle beam comprises: a gantry body portion forming the rotating gantry; a mounted magnet; a displacement meter or an acceleration meter; and a control mechanism. The mounted magnet is connected to the gantry body portion with an intermediation of a magnet support, and guides the charged particle beam to the irradiation port. The displacement meter or the acceleration meter is provided to the mounted magnet, and measures a displacement or an acceleration of the mounted magnet. The control mechanism controls a position of the mounted magnet in a direction so as to reduce the displacement or the acceleration with at least a single degree of freedom measured by the displacement meter or the acceleration meter.

Abstract: Described herein is an approach to determine a deflection of a portion of an imaging system tabletop located at iso-center utilizing a tabletop deflection determiner with a least a first portion located on a rotating gantry portion of the imaging system. In one non-limiting instance, an imaging system includes a rotating gantry portion (606) with an aperture defining an examination region, a tabletop (620) that supports a subject or object in the examination region, wherein the tabletop cantilevers into and deflects in the examination region, and a tabletop deflection determiner (622) that determines a deflection of the tabletop in the examination region, wherein a first portion (702, 706) of the tabletop deflection determiner is located on the rotating gantry portion.

Abstract: A radiotherapy apparatus includes a rotatable drum on which is mounted a gantry arm carrying a radiation source, the arm extending from the drum to locate the source is offset from the axis of rotation of the drum and oriented towards the axis, and a mechanism to apply a tilt to the arm depending on the rotational orientation of the drum.

Abstract: An imaging system (100) includes a stationary gantry (102), a rotating gantry (104) that rotates around an examination region about a z-axis, an annular support (106) that is statically affixed to the stationary gantry and that rotatably couples the rotating gantry to the stationary gantry, and a radial compliant ring (108) disposed between the annular support and the rotating gantry. In a variation, the imaging system also includes an axial compliant ring (112) disposed perpendicular to the radial compliant ring, statically affixed to the annular support and extending in part in a recess (206) of the rotating gantry.

Abstract: A radiotherapy apparatus includes a rotatable drum on which is mounted a gantry arm carrying a radiation source, the arm extending from the drum to locate the source is offset from the axis of rotation of the drum and oriented towards the axis, and a mechanism to apply a tilt to the arm depending on the rotational orientation of the drum.

Abstract: In a construction having a radiation tube in an envelope filled with an insulating liquid, a radiation generating apparatus which realizes a miniaturization of the apparatus, an improvement of a withstanding voltage between the envelope and the radiation tube, and a decrease in attenuation amount of the radiation and a radiation imaging apparatus using the radiation generating apparatus are provided. The radiation generating apparatus has an envelope 12 having a first window 27 for transmitting the radiation, a radiation tube 14 enclosed in the envelope 12 and having a second window 19 for transmitting the radiation at a position in opposition to the first window 27, and an insulating liquid 13 filled between the envelope 12 and the radiation tube 14. A solid-state insulating member 28 is placed between the first window 27 and its periphery and the second window 19 and its periphery.

Abstract: Systems and methods for braking and releasing one or more pivot joints used in an X-ray positioning device are described. The systems and methods use a support arm that extends between a main assembly of the x-ray positioning device and an X-ray imaging assembly with an X-ray source and an X-ray detector that are disposed nearly opposite to each other. The support arm includes one or more pivot joints (such as horizontal, lateral, and/or orbital pivot joints) that allow the imaging assembly to move with respect to the main assembly. The pivot joints can each be connected to an automated braking system that is capable of selectively locking and unlocking a corresponding pivot joint, as indicated by a user-controlled switching mechanism. The braking systems containing multiple pivot joints can be individually controlled by separate switching mechanisms or simultaneously controlled by a single switching mechanism. Other embodiments are described.

Abstract: There is provided a target for an X-ray generator, including: a holder part made of an electrically conductive material and having an opening part; a diamond plate air-tightly joined to the holder part so as to close the opening part; a thin film target provided on a surface of the diamond plate, with its outer peripheral part extending to the holder part to be electrically connected to the holder part, wherein the holder part is configured to be electrically connected to a power supply of the X-ray generator, and the diamond plate is incorporated into the X-ray generator with one side disposed in a vacuum atmosphere where the thin film target is formed, and an opposite side thereto disposed at a side where the diamond plate is brought into thermal contact with a refrigerant and cooled.

Abstract: Systems and methods for braking and releasing one or more pivot joints used in an X-ray positioning device are described. The systems and methods use a support arm that extends between a main assembly of the x-ray positioning device and an X-ray imaging assembly with an X-ray source and an X-ray detector that are disposed nearly opposite to each other. The support arm includes one or more pivot joints (such as horizontal, lateral, and/or orbital pivot joints) that allow the imaging assembly to move with respect to the main assembly. The pivot joints can each be connected to an automated braking system that is capable of selectively locking and unlocking a corresponding pivot joint, as indicated by a user-controlled switching mechanism. The braking systems containing multiple pivot joints can be individually controlled by separate switching mechanisms or simultaneously controlled by a single switching mechanism. Other embodiments are described.

Abstract: Provided is an X-ray generator for generating X-rays from an X-ray focal point that is a region in which electrons emitted from a filament impinge upon a rotating anode. The X-ray generator has a Wehnelt electrode for surrounding the filament, an attachment part formed integrally with the Wehnelt electrode, a pedestal to which the attachment part is attached, and a casing for housing the pedestal and the anticathode. The width of the space in which the anticathode is housed by the casing is less than the width of the space in which the pedestal is housed by the casing. The Wehnelt electrode extends into the space in which the anticathode is housed by the casing, in a state in which the attachment part is attached to the pedestal.

Abstract: In an integrated gimbal and High-Powered Multiband Laser (HPMBL) for use in an infrared countermeasure apparatus in a pod mounted on an aircraft, the improvement comprises an optical bench that connects the optical path between side-by-side mounted gimbal and high power laser; and a kinematic mounting system that prevents optical bench bending.

Abstract: A mount for mounting an ultraviolet (UV) lamp assembly or other device to a duct wall of an HVAC system. The mount may have a base having a first side and a second side, an aperture extending through the base from the first side to the second side, one or more first mounting features, and one or more second mounting features. To secure a UV lamp assembly to the base, the mount may have a socket allowing at least a portion of the UV lamp to extend through the aperture of the base. To secure the first side of the mount to the duct wall, the first mounting features receives connectors. To secure the second side of the mount to the duct wall, the second mounting features receive connectors. A recess between the second mounting features may facilitate connecting connectors to a duct wall without the duct wall interfering with the secured UV lamp assembly.

Abstract: Methods and apparatus for detecting variations in electromagnetic fields, in particular, terahertz (THz) electromagnetic fields, are provided. The methods and apparatus employ polarization detection devices and controllers to maintain or vary the polarization of modulated signals as desired. The methods and apparatus are provided to characterize electromagnetic fields by directing the electromagnetic field and a probe beam upon an electro-crystal and detecting the modulation of the resulting probe beam. Detection of the modulation of the probe beam is practiced by detecting and comparing the polarization components of the modulated probe beam. Aspects of the invention may be used to analyze or detect explosives, explosive related compounds, and pharmaceuticals, among other substances. A compact apparatus, modular optical devices for use with the apparatus, sample holders, and radiation source mounts are also disclosed.

Abstract: A robotic treatment delivery system including a linear accelerator (LINAC), and a robotic arm coupled to the LINAC. The robotic arm is configured to move the LINAC along at least four rotational degrees of freedom and one substantially linear degree of freedom.

Abstract: Disclosed is a high resolution and high throughput charged particle radiation device that attenuates the natural vibration of an ion pump in a short time, excited by a reaction force at the time of driving the stage, and prevents occurrence of a loop of force and a loop of current. The charged particle radiation device includes a sample chamber (4) for disposing a sample (3) therein, a charged particle radiation optical lens tube (1) for irradiating the sample (3) with charged particle radiation (10), ion pumps (2a, 2b) for evacuating the charged particle radiation optical lens tube (1), a frame (16) fixedly attached to the sample chamber (4), the frame (16) facing one end of each of the ion pumps (2a, 2b), and vibration absorbers provided between the frame (16) and the one end of each of the ion pumps (2a, 2b), each of the vibration absorbers including a layered structure which includes a viscoelastic sheet (20a, 20b) sandwiched between metal plates (18a, 18b, 21a, 21b).

Abstract: An apparatus for actinic extreme ultra-violet (EUV) reticle inspection including at least one shape memory metal actuator adapted to displace an inspection component in an EUV inspection tool. An apparatus for actinic EUV reticle inspection including a tilt mechanism including at least one shape memory metal actuator adapted to angularly displace an inspection component in an EUV inspection tool. An apparatus for actinic EUV reticle inspection, including a translation stage adapted to fixedly connect to an inspection component, at least one flexure stage, and at least one shape memory metal actuator adapted to displace the translation stage.

Abstract: A universal mounting adapter is configured for interchangeably mounting a calibration source to two or more different imaging devices. The two imaging devices have different mounting brackets so they cannot be used with the same conventional calibration source. The present adapter includes mounting mechanisms for both types of bracket, allowing the attached calibration source to be moved from one imaging device to the other, while maintaining the calibration source in a prescribed geometry within the respective imaging device. This can be performed without the need for any tools.

Abstract: A medical device includes a moving gantry, on which a radiation source is arranged, and a collision-protection apparatus for preventing a patient from colliding with the moving gantry. The gantry is operable to be moved around a patient-positioning apparatus. The collision-protection apparatus can be configured as a mechanical collision-protection apparatus that is operable to be positioned between the patient and the moving gantry. The collision-protection apparatus can also be configured as a collision-monitoring apparatus that detects the crossing of a predefined volume by an object, the collision-monitoring apparatus having a control apparatus that controls the motion of the gantry as a function of whether a crossing of the volume has or has not been detected.

Abstract: The present invention provides an extendible support mechanism in which a counterbalance system allows extension and retraction of the arm to be carried out with the same level of mechanical effort. Embodiments of the present invention allow the system to be used in a plurality of orientations, and thus the invention has particular utility in the extension and retraction of peripheral devices for radiotherapy systems, where use of a rotatable gantry is common.

Abstract: Paper and continuous web scanners operate at varying and high temperature conditions that cause distortion of the support beams and ultimately misalignment of the scanner heads. Circulating a heat transfer fluid between the support beams and through segmented fluid channels within the beam allows tuning of the beam's deflection when operating in an uneven thermal environment. The heat transfer rate can be modulated through various techniques, including: (1) varying the flow rate through each channel under manual or automatic control, (2) controlling the inlet fluid temperature of each channel with fluid immersion heaters or coolers, and (3) setting up the flow sequence via distribution channels that are, for example, in parallel, serial, or mixed.

Abstract: This invention provides a method of combining an array-type nanospray ionization source comprising a set of externally wetted proud features and a contact electrode with a pneumatic nebuliser acting to enhance the flux of sprayed ions. Methods of fabricating a substrate combining a set of proud features with analyte delivery and gas flow channels in silicon-based materials are described.

Abstract: In an integrated gimbal and High-Powered Multiband Laser (HPMBL) for use in an infrared countermeasure apparatus in a pod mounted on an aircraft, the improvement comprises an optical bench that connects the optical path between side-by-side mounted gimbal and high power laser; and a kinematic mounting system that prevents optical bench bending.

Abstract: A radiation detector stand has a first support having a plurality of first trenches to which a plurality of radiation detectors for detecting a radiation are inserted, and a second support arranged in parallel to the first support. The first trenches are arranged at a predetermined interval corresponding to an interval of arranging the radiation detectors. The second support has a plurality of second trenches to which the radiation detectors are inserted, and the second trenches are arranged at the predetermined interval.

Abstract: The invention relates to a method and an apparatus for detecting leaded pieces of glass in a single-layer material flow of objects composed predominantly of waste glass, with the objects being irradiated with substantially monochromatic UV light (3) and the fluorescent light resulting therefrom being detected. It is provided therein that the object is additionally irradiated with visible or infrared light (4); the transmission light of the visible or infrared light (4) is detected after the passage through the object; and an object is defined as containing lead if both the fluorescent light for at least one predetermined wavelength range corresponding to the fluorescence of leaded glasses is present in a predetermined intensity range and also transmission light in a predetermined intensity range with an intensity of larger zero.

Abstract: An imaging system comprising: a scanner for scanning an object and creating an image of the same; and a transport mechanism mounted to the scanner for moving the scanner, wherein the transport mechanism comprises: a gross movement mechanism for transporting the scanner between scanning locations; and a fine movement mechanism for moving the scanner precisely, relative to the object being scanned, during scanning of the object; wherein the gross movement mechanism comprises at least one motorized wheel.

Abstract: A medical device which can rotate a radiation emitter or the like with high positional precision over an extended period of time is provided. Provided are a support frame installed such that a central axis thereof is positioned substantially horizontally; circular tracks respectively disposed on both side faces of the support frame; a moving gantry configured to revolve relative to the support frame via sliding portions configured to slide on the circular tracks; and revolving driving means for revolving the moving gantry, wherein the moving gantry is constructed of a rigid-framed structure formed of a first side portion and a second side portion disposed so as to flank the support frame from both side faces thereof, and coupling portions for coupling the first side portion and the second side portion.

Abstract: When locking a medical imaging device detector in position to generate a medical image, an articulating arm includes top and bottom portions, coupled to a gantry and to a distal portion that is coupled to a detector. The top and bottom portions each include an over-the-center bell crank locking mechanism with a shank couple to a central handle. Each shank includes a pair of flanges that are coupled to a pair of actuators by both a pivot pin and a spring mechanism. Each actuator is coupled to a crank. When the handle is rotated to a locked position, a sliding lock extends to lock the articulating arm in position relative to the gantry, and a lever arm is extended to cause a shaft to rotate. Rotation of the shaft actuates a sliding pin linkage, which urges a pair of pins outward to lock the articulating arm in position relative to the detector.

Abstract: An electronic device may include wireless circuitry such as infrared sources that control external equipment such as televisions and set-top boxes. An infrared source may be mounted within an electronic device housing in a visually inconspicuous location such as in a connector port. A button may be provided with transparent structures that allow infrared light to pass through the button. A removable accessory port may be provided with an infrared transmitter accessory that allows an electronic device to serve as a remote control device. Portions of an electronic device housing may be provided with thin housing walls or holes that are too small to be noticeable to the naked eye to serve as windows for infrared light. An audio port may serve as an infrared light window. Gasket structures, bezel structures, and the edges of displays and other planar glass members may be used in transmitting infrared light.

Abstract: An applicator means (20) for radiation therapy, having at least one first applicator element for taking up a probe tip or a radiation source element (12) of a radiation source means (11), as well as a radiation therapy device (10) are described. In order to avoid an undesired slipping out of position of applicator means (20), particularly during the irradiation process, it is provided that the first applicator element is designed as an inner applicator element (21), which has a foot region (22), by means of which inner applicator element (21) can be attached to radiation source means (11), that applicator means (20) has a second applicator element which is designed as an outer applicator element (24) relative to inner applicator element (21), that outer applicator element (24) has an uptake space (28) for taking up at least one component of inner applicator element (21), and that inner applicator element (21) is designed so that it can be introduced into outer applicator element (24), at least in regions.

Abstract: Systems, methods, and related computer program products for image-guided radiation treatment (IGRT) are described. Provided according to one preferred embodiment is an IGRT apparatus including a barrel-style rotatable gantry structure that provides high mechanical stability, versatility in radiation delivery, and versatility in target tracking. Methods for treatment radiation delivery using the IGRT apparatus include conical non-coplanar rotational arc therapy and cono-helical non-coplanar rotational arc therapy. A radiation treatment head (MV source) and a treatment guidance imaging system including a kV imaging source are mounted to and rotatable with a common barrel-style rotatable gantry structure, or alternatively the MV and kV sources are mounted to separate barrel-style rotatable gantry structures independently rotatable around a common axis of rotation.

Abstract: Inspection of rolling stock (e.g., rail vehicles) traveling along a set of rails is performed using devices that are placed in a housing that is attached to the set of rails. The housing conforms to standard width, height, and load bearing requirements for a railroad tie. As such, the housing can be readily installed and allows for the continued use of standard railroad maintenance equipment. One or more sensing devices are attached to the housing and acquire evaluation data on component(s) of the rail vehicle, such as the wheels. A computing device can evaluate a condition of the component(s) using the evaluation data.

Abstract: The invention relates generally to an electro-optic identification device, particularly to a helmet-mounted identification device. An identification device suitable for mounting on an object comprises a support structure having a plurality of electro-optic emitters positioned thereon, wherein the support structure conforms, in use, to the shape of said object. Preferably, the support structure takes the form of a plurality of emitter arms radiating from a hub, each arm comprising one or more electro-optic emitters. The electro-optic emitters may include visible emitters and/or infrared emitters, and are more preferably selected from the group consisting of near infrared emitters, medium wave thermal infrared emitters and long wave thermal infrared emitters, or any combination thereof. The invention has particular utility in military applications.

Abstract: A lamp mounting assembly that mounts a UV lamp within a flow control structure includes a mount assembly that mounts at an end of the flow control structure. The mount assembly includes a conductor housing receiving opening extending therethrough. A socket base structure includes a socket base and a conductor housing extending outwardly from the socket base. The conductor housing is sized to be received by the conductor housing receiving opening of the mount assembly. A lamp socket is connected to the conductor housing to allow an electrical connection between the lamp socket and a power source. The lamp socket has a lamp engaging surface arranged offset from vertical when mounted to the flow control structure.

Abstract: A cradle for use with a radiation conversion device includes a cradle for carrying out charging of a radiation conversion device, the cradle being disposed in the vicinity of an image capturing apparatus which captures a radiation image of a subject, the radiation conversion device detecting radiation that has passed through the subject and converting the radiation into image information. The cradle includes a charging processor for carrying out charging with respect to a battery mounted in the radiation conversion device, an image information acquisition unit for acquiring the image information from the radiation conversion device, a correction information generating unit for generating correction information with respect to the radiation conversion device using the acquired image information, and a correction information memory for storing the generated correction information in association with the radiation conversion device.

Abstract: This invention relates to an apparatus for scanning substrates through an ion beam in the process chamber of an ion implanter. The apparatus comprises a substrate carriage and reaction mass carriage movably mounted to a fixed base. The substrate carriage is adapted to support a substrate holder. Movement of the substrate carriage results in movement of the substrate holder, and substrate mounted therein, through the ion beam. The reaction mass carriage moves in the opposite direction to the substrate carriage to counter any reaction forces exerted on the fixed base as a result of acceleration of the substrate carriage.

Abstract: A method for removal of a deposition on an uncapped multilayer mirror of an apparatus. The method includes providing a gas that includes one or more of H2, D2 and DH, and one or more additional compounds selected from hydrocarbon compounds and/or silane compounds in at least part of the apparatus; producing hydrogen and/or deuterium radicals and radicals of the one or more additional compounds, from the gas; and bringing the uncapped multilayer mirror with deposition into contact with at least part of the hydrogen and/or deuterium radicals and the radicals of the one or more additional compounds to remove at least part of the deposition.

Abstract: The present invention relates to an adjusting positioner for a radiation device, comprising: a clamping device detachably connected to the radiation device to clamp said radiation device; a supporter to which said clamping device is connected and a slide path is defined therebetween, wherein the clamping device clamping said radiation device is movable along said slide path in a predetermined direction; and an adjusting device coupled with said clamping device so as to drive said clamping device to move along said slide path. Since the present invention employs above technical solution, it is easy to adjust the position of the radiation device for example, X-ray device, so that the precisely positioning for the radiation device is achieved and a satisfying positioning accuracy is able to obtain.

Abstract: A medical imaging system (100) includes a stationary gantry (102) and a rotating gantry (104) that rotates around an examination region (108) about a z-axis. An air bearing (106) rotatably couples the rotating gantry (104) to the stationary gantry (102). A radiation source (110) is affixed to the rotating gantry (104) and rotates with the rotating gantry (104) and emits radiation that traverses the examination region. A detector array (112) is affixed to the rotating gantry (104) on an opposite side of the examination region with respect to the radiation source (110) and detects radiation traversing the examination region (108). A dynamic z-axis imbalance determination system (116) determines an imbalance of the rotating gantry (104) in the z-axis direction directly from the air bearing (106), and the determined imbalance is used to position a balance mass (114) affixed to the rotating gantry (104) in the z-axis direction, thereby balancing the rotating gantry (104) along the z-axis.

Abstract: A medical device includes a moving gantry, on which a radiation source is arranged, and a collision-protection apparatus for preventing a patient from colliding with the moving gantry. The gantry is operable to be moved around a patient-positioning apparatus. The collision-protection apparatus can be configured as a mechanical collision-protection apparatus that is operable to be positioned between the patient and the moving gantry. The collision-protection apparatus can also be configured as a collision-monitoring apparatus that detects the crossing of a predefined volume by an object, the collision-monitoring apparatus having a control apparatus that controls the motion of the gantry as a function of whether a crossing of the volume has or has not been detected.

Abstract: Methods and apparatus for detecting variations in electromagnetic fields, in particular, terahertz (THz) electromagnetic fields, are provided. The methods and apparatus employ polarization detection devices and controllers to maintain or vary the polarization of modulated signals as desired. The methods and apparatus are provided to characterize electromagnetic fields by directing the electromagnetic field and a probe beam upon an electro-crystal and detecting the modulation of the resulting probe beam. Detection of the modulation of the probe beam is practiced by detecting and comparing the polarization components of the modulated probe beam. Aspects of the invention may be used to analyze or detect explosives, explosive related compounds, and pharmaceuticals, among other substances. A compact apparatus, modular optical devices for use with the apparatus, sample holders, and radiation source mounts are also disclosed.

Abstract: Device (1) for hardening plastics material liners for pipe and conduit refurbishment, with at least one ultraviolet light sources (3), wherein rollers (5) for mounting the device (1) in the pipe are provided and wherein a pushing and/or pulling device is provided by which the device (1) can be pushed or pulled through the conduit pipe to be refurbished, wherein several mounts (7) capable of mounting different rollers (5) are provided.

Abstract: The present invention discloses an inspection container, comprising: a bottom and a sidewall, said bottom is coupled to one side of said sidewall to form a space, wherein, there are a plurality of protrudes set on the lower surface of said bottom. The inspection container further comprises a division part, which divides said space into a plurality of subspaces. With the solutions according to the present invention, it is possible to meet the requirement for inspecting a plurality of bottles at one time.

Abstract: A supporting/moving section for supporting and moving a device to predetermined positions at which radiation imaging is performed is prepared. An operating portion is provided for manipulating the movement of the device supported by the supporting/moving means. A detecting section outputs detection signals, which are obtained by detecting external forces which are applied to the operating portion. A control section controls the supporting/moving means to move the device such that the movement tracks target values for movement, which are determined from the detection signals. During manipulation of the operating portion, a unique oscillation frequency measuring section executes measurements to obtain a unique oscillation frequency of the device.

Abstract: A medical gantry that focus the beam from the beginning of the gantry to the exit of the gantry independent of the rotation angle of the gantry by keeping the beam achromatic and uncoupled, thus, avoiding the use of collimators or rotators, or additional equipment to control the beam divergence, which may cause beam intensity loss or additional time in irradiation of the patient, or disadvantageously increase the overall gantry size inapplicable for the use in the medical treatment facility.

Abstract: A radiation detector stand has a first support having a plurality of first trenches to which a plurality of radiation detectors for detecting a radiation are inserted, and a second support arranged in parallel to the first support. The first trenches are arranged at a predetermined interval corresponding to an interval of arranging the radiation detectors. The second support has a plurality of second trenches to which the radiation detectors are inserted, and the second trenches are arranged at the predetermined interval.

Abstract: An ultra-violet lamp and reflector/shield assembly designed to be mounted in a commercial HVAC, and to other types of A/C units is described herein. The reflector/shield includes a reflective inner surface creating an illumination pattern and an outer surface shielding the UV lamp from the air flow. An orienting and securing assembly for a UV lamp is also described herein.

Abstract: The invention relates to a patient-positioning device for positioning a patient in an irradiation position in a radiation therapy arrangement, in particular in a particle radiation therapy arrangement comprising a patient supporting module, which is provided with a patient supporting device for holding the patient in a body holder where the irradiation is to be carried out, wherein, said patient supporting device is mounted on a base unit in such a way that it is rotatable about an axis by means of a bearing, said base unit is provided with a coupling element, the inventive device is also provided with a positioning arm, which comprises several joints and a coupling point for coupling the coupling element and for freely positioning the patient in any predefined irradiation position by adjusting the angle of rotation of the patient supporting module.