Patent application number | Description | Published |
20090026353 | Photomultiplier Tube and Radiation Detecting Device - A vacuum vessel is configured by hermetically joining a faceplate ( | 01-29-2009 |
20090140151 | Photomultiplier Tube and Radiation Detecting Device - A vacuum vessel is configured by hermetically joining a faceplate ( | 06-04-2009 |
20090160332 | Photomultiplier Tube, Radiation Detecting Device, and Photomultiplier Tube Manufacturing Method - A vacuum vessel is configured by hermetically joining a faceplate to one end of a side tube and a stem to the other end via a tubular member. A photocathode, a focusing electrode, dynodes, a drawing electrode, and anodes are arranged within the vacuum vessel. The dynodes and the anodes have a plurality of channels in association with each other. Each electrode has cutout portions that overlap in a stacking direction, and supporting pins and lead pins are arranged in the cutout portions. A bridge is provided in a concave section arranged between unit anodes, and the bridge is cut off after the anode plate is placed on stem pins. Effective areas of each electrode and the anode are secured sufficiently, thereby allowing electrons to be detected efficiently. | 06-25-2009 |
20090200940 | Photomultiplier Tube and Radiation Detecting Device - A vacuum vessel ( | 08-13-2009 |
20090212699 | PHOTOMULTIPLIER - The present invention relates to a photomultiplier that realizes a significant improvement of response time characteristics by a structure enabling mass production. The photomultiplier comprises a sealed container, and, in the sealed container, a photocathode, an electron multiplier section, and an anode are respectively disposed. The electron multiplier section includes multiple stages of dynode units, and each of the multiple stages of dynode units is fixed with one end of the associated dynode pin while being electrically connected thereto. In particular, the dynode pin, whose one ends are fixed to the multiple stages of dynode units, are held within an effective region of the electron multiplier section contributing to secondary electron multiplication, when the electron multiplier section is viewed from the photocathode side. By this configuration, a focusing distance from the photocathode to a first stage dynode unit can be shortened effectively and the effective region of the electron multiplier section can be enlarged to effectively reduce variations in transit time of photoelectrons propagating from the photocathode to the first stage dynode unit. | 08-27-2009 |
20100213837 | PHOTOMULTIPLIER TUBE - Electrons are prevented from being made incident onto an insulation part of a casing between dynodes to improve a withstand voltage. The photomultiplier tube | 08-26-2010 |
20110221336 | PHOTOMULTIPLIER AND ITS MANUFACTURING METHOD - The present invention relates to a photomultiplier having a structure for making it possible to easily realize high detection accuracy and fine processing, and a method of manufacturing the same. The photomultiplier comprises an enclosure having an inside kept in a vacuum state, whereas a photocathode emitting electrons in response to incident light, an electron multiplier section multiplying in a cascading manner the electron emitted from the photocathode, and an anode for taking out a secondary electron generated in the electron multiplier section are arranged in the enclosure. A part of the enclosure is constructed by a glass substrate having a flat part, whereas each of the electron multiplier section and anode is two-dimensionally arranged on the flat part in the glass substrate. | 09-15-2011 |
20120091316 | PHOTOMULTIPLIER TUBE - The photomultiplier tube | 04-19-2012 |
20120091889 | PHOTOMULTIPLIER TUBE - The photomultiplier tube | 04-19-2012 |
20120091890 | PHOTOMULTIPLIER TUBE - The photomultiplier tube | 04-19-2012 |
20120125892 | LASER PROCESSING METHOD - A laser processing method for forming a hole in a sheet-like object to be processed made of silicon comprises a depression forming step of forming a depression in a part corresponding to the hole on a laser light entrance surface side of the object, the depression opening to the laser light entrance surface; a modified region forming step of forming a modified region along a part corresponding to the hole in the object by converging a laser light at the object after the depression forming step; and an etching step of anisotropically etching the object after the modified region forming step so as to advance the etching selectively along the modified region and form the hole in the object; wherein the modified region forming step exposes the modified region or a fracture extending from the modified region to an inner face of the depression. | 05-24-2012 |
20120125893 | LASER PROCESSING METHOD - In a method comprising a modified region forming step of converging a laser light at a sheet-like object to be processed made of silicon so as to form a plurality of modified spots within the object along a modified region forming line tilted in a first lateral direction with respect to a thickness direction of the object and the plurality of modified spots construct a modified region, and an etching step of anisotropically etching the object after the modified region forming step so as to advance the etching selectively along the modified region and form the object with a space extending obliquely with respect to the thickness direction, the modified region forming step forms the plurality of modified spots such that the modified spots adjacent to each other at least partly overlap each other when seen in the first lateral direction. | 05-24-2012 |
20120274204 | PHOTOMULTIPLIER AND ITS MANUFACTURING METHOD - The present invention relates to a photomultiplier having a structure for making it possible to easily realize high detection accuracy and fine processing, and a method of manufacturing the same. The photomultiplier comprises an enclosure having an inside kept in a vacuum state, whereas a photocathode emitting electrons in response to incident light, an electron multiplier section multiplying in a cascading manner the electron emitted from the photocathode, and an anode for taking out a secondary electron generated in the electron multiplier section are arranged in the enclosure. A part of the enclosure is constructed by a glass substrate having a flat part, whereas each of the electron multiplier section and anode is two-dimensionally arranged on the flat part in the glass substrate. | 11-01-2012 |
20130033175 | ELECTRON MULTIPLIER AND PHOTOMULTIPLIER INCLUDING THE SAME - The present invention relates to an electron multiplier and others to effectively suppress luminescence noise, even in compact size, in which each of multistage dynodes has a plurality of columns each having a peripheral surface separated physically, and in which each column is processed in such a shape that an area or a peripheral length of a section parallel to an installation surface on which the electron multiplier is arranged becomes minimum at a certain position on the peripheral surface in the column of interest. | 02-07-2013 |
20140111085 | PHOTOMULTIPLIER AND ITS MANUFACTURING METHOD - The present invention relates to a photomultiplier having a structure for making it possible to easily realize high detection accuracy and fine processing, and a method of manufacturing the same. The photomultiplier comprises an enclosure having an inside kept in a vacuum state, whereas a photocathode emitting electrons in response to incident light, an electron multiplier section multiplying in a cascading manner the electron emitted from the photocathode, and an anode for taking out a secondary electron generated in the electron multiplier section are arranged in the enclosure. A part of the enclosure is constructed by a glass substrate having a flat part, whereas each of the electron multiplier section and anode is two-dimensionally arranged on the flat part in the glass substrate. | 04-24-2014 |