A radiation image reading device includes: a light scanning unit; a light detection unit. Each of a transmittance when the excitation light reflected from the surface of the recording medium is transmitted through the optical filter and a transmittance when the signal light emitted from the surface of the recording medium at an angle larger than a predetermined angle with respect to a direction perpendicular to the scan line within the detection surface is transmitted through the optical filter is smaller than a transmittance when the signal light emitted from the surface of the recording medium at an angle smaller than the predetermined angle with respect to a direction perpendicular to the scan line within the detection surface is transmitted through the optical filter.

A device configured to read an exposed imaging plate, comprises a light-source that generates read-out light. A deflection unit directs the read-out light in a scanning movement over the imaging plate. The deflection unit comprises a micromirror that deflects impinging read-out light towards the imaging plate. The micromirror swivels about a first swivel axis and about a different second swivel axis. The micromirror oscillates with a first frequency about the first swivel axis and simultaneously with a different second frequency about the second swivel axis. A detector unit detects fluorescent light which is emitted from the imaging plate at locations where the read-out light impinges.

The present invention provides a network server with enhanced graphics and improved methods for displaying articles offered for purchase, to allow a purchaser to fully evaluate the article while shopping on-line. In a particular embodiment, a virtual showroom associated with the network server may be provided, for displaying first and second articles. A first electronic image representing the first article and a second electronic image representing the second article may also be provided. The second article may be complementary to the first article, such that the second article may be worn in conjunction with the first article. In another embodiment, a user may have the option to overlay the first electronic image with the second electronic image. In a particular embodiment, the second electronic image may include an at least partially translucent depiction of a substantial portion of the second article.

A radiation image scanner is a radiation image scanner that reads a radiation image from a front surface of an image plate (IP), and includes a stage that supports the IP from a back surface side and a setting guide including a first IP guide surface that guides the IP obliquely downward. At least one of the setting guide and the stage includes an inclined surface (second IP guide surface), which is a surface inclined downward to the opposite side with respect to the first IP guide surface, receives the IP guided by the first IP guide surface, and guides the IP obliquely downward. At least one of the stage and the setting guide includes a front-back inverting portion that comes into contact with the IP from a front surface side of the IP to invert the IP to the same inclined posture as the inclined surface.

An imaging control apparatus obtains a plurality of images at different radiation energies by irradiating, with radiation having different radiation energies, a subject in which at least one of a contrast agent, a guide wire, and a stent is inserted, generates an energy subtraction image by performing energy subtraction processing using the plurality of images, and generates a difference image between a mask image that is based on a plurality of energy subtraction images generated in a past and a live image that is based on a current energy subtraction image.

The present invention provides a network server with enhanced graphics and improved methods for displaying articles offered for purchase, to allow a purchaser to fully evaluate the article while shopping on-line. In a particular embodiment, a virtual showroom associated with the network server may be provided, for displaying first and second articles. A first electronic image representing the first article and a second electronic image representing the second article may also be provided. The second article may be complementary to the first article, such that the second article may be worn in conjunction with the first article. In another embodiment, a user may have the option to overlay the first electronic image with the second electronic image. In a particular embodiment, the second electronic image may include an at least partially translucent depiction of a substantial portion of the second article.

Disclosed is a digital radiography phosphorescent plate reader which includes a stimulation unit, a reading unit and a mechanism for moving the plate. The reading unit includes a TDI sensor in which the line transfer speed is correlated with the speed of movement of the plate. The reader is optimised to achieve a high reading efficiency and a high spatial resolution, whilst reducing the cost and space requirements.

Apparatus for radiography is disclosed, which includes a flat panel scintillator having a first surface for being exposed to radiation and a second surface for emitting visible light in response, and an associated imaging system. The imaging system includes a plurality of scanning MEM mirrors, each associated with a respective sub-region of the scintillator second surface, each scanning MEM mirror being mounted and controlled so as to re-direct light from along a predetermined scan path within the respective sub-region towards a respective optical channel. A photodetector is associated with each scanning MEM mirror and optical channel for receiving the re-directed light and generating an electrical signal representing light intensity. A processor receives the electrical signal from each photodetector and the corresponding position of each scanning MEM mirror to generate therefrom a reconstructed two-dimensional image.

Described is a device comprising a retro-reflective marker sphere comprising: a core ball comprising: a generally spherical body portion, a mounting base extending from one end of the body portion of the core ball, and a mounting recess having a recess opening in the mounting base and extending into the body portion of the core ball, and a retro-reflective covering on the core ball, the retro-reflective covering comprising an opening through which the mounting base of the core ball extends, wherein a flat lower surface of the mounting base is spaced proximally from a lower edge of the opening of the retro-reflective covering, and wherein the mounting recess includes an interior screw thread for engaging an exterior screw thread of a mounting post when the retro-reflective marker sphere is mounted on the mounting post.

A storage phosphor plate assembly includes at least one storage phosphor plate having a storage phosphor layer for storing X-ray information and a substrate layer on which the storage phosphor layer is provided. The substrate layer contains a permanent magnetic material, and a support plate contains a magnetic material, the at least one storage phosphor plate being held on the support plate due to magnetic forces. The invention further relates to an X ray cassette and a system for reading out storage phosphor plate. An easy and safe handling of storage phosphor plates of various sizes and/or forms, in particular during the read-out process in the read-out system, is achieved.