Abstract: A gas discharge device is provided with a getter film by sputtering an electrode used normally for device operation.

Abstract: Disclosed herein is a discharge lamp type display device which comprises mainly at least one discharge lamp formed by a discharge tube in which inert gas is charged. The discharge lamp comprises a pair of electrodes one of which is locally provided within the discharge tube adjacent one end thereof and the other is formed of electrically conductive, light transmissive film deposited on the exterior surface of the discharge tube. The display device further comprises means for gradually increasing or decreasing the voltage or the frequency of discharge power to be supplied between the two electrodes of the discharge lamp, whereby illumination region of the discharge lamp is variably controlled.

Abstract: A color cathode ray tube incorporates a getter assembly and contactor structure that is introduced into the interior of the tube through the open neck subsequent to the sealing of the panel and funnel portions of the envelope, and a mounting bracket affixed to the internal magnetic shield of the tube for receiving and securely holding the getter assembly and contactor structure, enabling the use of non-bakable getter material in feedback-type tubes.

Abstract: A low-pressure alkali metal vapor discharge lamp has a getter for bi- and triatomic gases and a getter holder in the arc tube near at least one electrode. The electrodes need be heated less strongly during evacuation of the prior to final dosing, as a result of which no emitter material of the electrodes is lost. The ignition voltage is considerably lower than that of conventional lamps without a getter.

Abstract: In a cathode-ray tube having a glass envelope portion, a gettering device (18) is urged against an internal wall portion of the glass envelope portion (2) by means of a resilient metal strip (19) connected to a component of the tube. The gettering device comprises a getter holder (30) in the form of an annular metal channel which is connected to the resilient metal strip (19) via a metal connection strip (32) and furthermore is kept, spaced from the wall portion by a metal support member (33). The support member is formed by a metal supporting arm (33) extending from the metal connection strip (32) which at its free end (34) is curved convexly with respect to the wall portion and contacts the wall portion in an area (35) situated centrally with respect to the annular channel (30). This arrangement enables the temperature of the support member at the area where it contacts the wall portion to be kept below 700.degree. C.

Abstract: A getter assembly is described having an improved support such that the points of contact with the glass wall of a cathode ray tube have as low a temperature as possible. An antenna position mounting can be attached to the lower side of the central disc-shaped form of the getter assembly formed from an upraised portion of the bottom wall of the ring container. Said mounting tab can extend outwardly without touching the internal wall of the container or its bottom wall, in the preferred embodiment there can be attached, for example by means of welding, a support means which has at least one concave surface facing towards the bottom of the container and situated in a plane perpendicular to the outwardly extended portion of the mounting tab.

Abstract: A sealed-off CO.sub.2 laser employs a catalyst to promote the recombination of CO and oxygen. The catalyst is loosely contained within a catalyst holder having a plurality of apertures and the catalyst is brought into contact with the gas by means of the pressure pulse caused by the electric discharge.

Abstract: A getter assembly is described which has an antenna mount in the form of a small bar placed along the diameter of an annular container. The antenna mount is formed in such a way as to touch the container only in areas near to the inner wall. In order to reduce to a minimum the points and the areas of contact between the antenna mount and the getter material container, the connection of these two elements is made by means of two diametrically opposite spot welds near to the internal wall of the annular container and longitudinally disposed along the mount.The mounting bar is preferably furnished with a downwardly dependent support member for maintaining the getter assembly away from the wall of the cathode ray tube in which it will be located.

Abstract: A getter assembly is described which has an improved support such that the points of contact with the glass wall of a cathode ray tube have as low a temperature as possible.A tab member for mounting the getter device is attached to the lower side of a central disc shaped zone of the getter device formed of an upraised bottom portion of the bottom wall of the ring getter. Said tab member extends without touching the inner side wall of the getter material container of its bottom wall. A support means is attached, for example by spot welding, to the tab member, and has at least two concave surfaces facing the bottom wall of the container and lying in a plane perpendicular to the outwardly extending zone of the tab member. The support means can be attached to the tab in the same area as which the tab is attached to the central zone of the upraised bottom portion of the container.

Abstract: In order to limit the increased quantity of ions produced within the tube as a result of the presence of a microchannel element within the tube, getters are placed on the probable path followed by the ions under the action of potentials applied to the electrodes. The electrodes to which the getters adhere are designed in two parts or constituent elements in order to permit the supply of getters if necessary. The electrode elements are bent-back in order to serve as shields in the case of vaporizable getters.

Abstract: A laser utilizing mercury halides as the lasing medium is disclosed. Electrodes selectively coated with a mercury gettering material are utilized to establish a glow discharge in the lasing medium. Proper ratio of mercury to bromine is maintained in the lasing medium to ensure long life operation.