Abstract: An improved radiation-emitting device of the type for containing gas and an electron flow therein between electrodes. Inner and outer tubular members form an elongated annular envelope volume. The inner tube is radiation-transmissive and the outer tube is preferably radiation-reflective, preferably having metallic inner coating. Fluid passing through the inner tube is irradiated.

Abstract: A rapid restrike metal halide lamp and method of operating such a lamp are disclosed which are particularly suitable for sports stadium lighting applications. The rapid restrike metal halide lamp has an arc tube containing constituents which require a waveform having a relatively high voltage and at a relatively high current in order to rapidly restrike the arc tube after the lamp has experienced a power interruption so as to initiate a sustaining arc condition of the arc tube. The relatively high waveform in the form of a series of pulse trains is routed to the arc tube by means of a two path arrangement comprising a conductive base at the bottom of the lamp and a insulative cap at the top of the lamp. This two-way path substantially reduces and even eliminates any arcing condition within the confines of the lamp.

Abstract: An amalgam fluorescent lamp is operated under high output and loading conditions by implementation of a control circuit to monitor and adjust lamp temperature. A variable density multi-element heater sleeve is connected to a controller which monitors the sleeve temperature and adjusts the power input to one or more of the sleeve segments. A separate control circuit maintains the lamp illumination output at a programmed level by monitoring a detected level of lamp output and comparing it with a pre-established reference signal.

Abstract: To provide for preheating of a high-pressure discharge lamp (6) having a charge vessel (7) closed off by a pinch or press seal (8), a ceramic holder (1), typically a ceramic tube with multiple capillary openings therein, has a heating wire threaded through the capillary openings, and the ceramic holder is located in intimate thermal transfer with respect to the lamp, for example by being placed and cemented in the transition zone between the discharge vessel (7) and the pinch or press seal. Heater power of about 10 W applied to two such ceramic capillary heaters located adjacent both sides of the pinch or press seal permits preheating the fill of the lamp so that 40% of rated light output can be obtained within several seconds after energization of the electrodes. The lamp is suitable as a headlamp for vehicular use and can be constructed in miniature size, with a discharge vessel volume in the range of 100ths cm.sup.3.

Abstract: A discharge tube adapted to produce a light by an extraneous high frequency electromagnetic field is heated before discharge to thereby improve the rising-up of the discharge and achieve uniformization of emitted light. Further, the discharge tube is heated by an electrode which applies a high frequency electromagnetic field to the discharge tube.

Abstract: An illumination apparatus includes a discharge tube for emitting light upon an application of an external high frequency wave electromagnetic field, an electrode, arranged outside the discharge tube, for applying the high frequency wave electromagnetic field to the discharge tube, a high frequency wave applying unit for supplying high frequency wave power to the electrode, and a projected portion extending from the discharge tube. The projected portion extends to a position where the high frequency wave electromagnetic field generated by the electrode has a level lower than a discharge initiation level. The high frequency wave power is controlled by changing a voltage, a frequency, a duty ratio or the like.

Abstract: A method and apparatus for heating by use of tungsten-halogen heating elements. A space heater for use with a radiator or other heat using apparatus employs the principle of collecting heat emitted by a tungsten-halogen element by use of a heat transfer fluid, be it gaseous, liquid or liquid-emulating solids, and transferring the heat therefrom to a reservoir, other storage means or radiator. A specially devised "pancake element" is employed in the preferred embodiment so as to provide a maximum surface area for the radiation and subsequent transfer of heat, which emanates from the element, to a transfer fluid. With the exception of the disc-shaped outer envelope, the heating element of the instant invention resembles the conventional tungsten-halogen lamp. Adjunct DC power generation is acquired through use of photovoltaic cellular arrays.

Abstract: An electric arc discharge switch having less susceptibility to electrode erosion and capable of being optically triggered. In a first embodiment the switch includes a gas tight body defining a hollow interior with electrodes mounted onto the body and forming a conducting path into the body interior. Portions of the body are optically transmissive to light frequencies above the photoelectric effect cutoff frequency for cesium vapor. A buffer gas and a predetermined quantity of vaporizable cesium are disposed within the hollow body interior and a flash lamp may be mounted onto the switch exterior. In operation, light frequencies above the photoelectric effect cutoff frequency for cesium are introduced into the switch body, ionizing the cesium vapor therein and reducing the resistance and breakdown voltage between the electrodes so as to initiate an electric arc. In an alternative embodiment a control plate with an aperture is disposed within the switch body between the electrodes.

Abstract: A novel design for an RF pumped gas laser is provided by spiralling an RF in lead transmission line around a ceramic gas container. The pitch of the spiral and spacing between the leads of the transmission line are chosen to produce currents parallel to the axis of the spiral to provide more efficient energy transfer modes between the pump and the lasing gas.

Abstract: To provide a low-profile socket for a single-ended high-pressure discharge lamp, a ceramic body is formed with a recess and includes two connection terminal elements (8, 9) secured thereto. A separating wall (7) subdivides the recess in the socket body into two chambers (4, 5; 6), one each of the contact terminal elements being located in a respective chamber (8:4-5; 9:6). The socket body (2) is formed with an access opening (5, 18) to the lamp terminal connection end portions (10, 11) of the connection terminal elements and closed off towards the lamp base (FIG. 3:21) by cover plates (16, 17) presenting a flat engagement surface for matching surfaces on the lamp base. The separating wall (7) which subdivides the socket into the two chambers insures high resistance against high-voltage flash-over, which may be in the order of 25 kV during hot-starting ignition.

Abstract: A high pressure metal vapor discharge lamp including an outer bulb having a seal portion, an arc tube enclosed within the outer bulb, the arc tube having at least a pair of electrodes and containing at least a light emitting material and a rare gas, a pair of first lead wires of which one ends connect to the electrodes respectively and another ends mounted at the seal portion of outer bulb, a pre-heater disposed within the outer bulb, the pre-heater comprises a heat element and an insulating material covers the heat element and facing the arc tube to give the heat to the arc tube, and a second lead wires connected to the heat element of pre-heater, the portion of the second lead wires which are exposed in the outer bulb are surrounded by a heat-resisting insulator and the base portion of the second lead wires are mounted at the seal portion of outer bulb.

Abstract: A gas display panel includes a base plate carrying cathode electrodes and a face plate carrying anode electrodes, the base plate and face plate being hermetically sealed together to form an envelope which is filled with an ionizable gas and mercury vapor. The base plate carries a conductor which is used to heat the panel and this conductor extends over the surface of the base plate into the areas of the seal between the base plate and face plate and it also is positioned to provide heat at the location where a source of mercury is coupled to the base plate.

Abstract: An improved radiation-emitting device of the type for containing a gas and electron flow therein between electrodes. First and second separate elongated principal members form an elongated envelope volume having constant cross-sections along its length. The members are arranged and configured so that the envelope volume is less than that of a cylinder of similar cross-demension. The first principal member is radiation-transmissive and the second is preferably radiation-reflective, having a metallic inner coating. Plural electrodes are preferably used. The second principal member is preferably inwardly-concave. One preferred embodiment has a first principal member which is outwardly concave and preferably has a high gas pressure. Another has an outwardly convex first principal member. Another has concentric inner and outer tubes as radiation-transmissive and radiation-reflective members, respectively, the inner tube serving as a flow path for a liquid to be treated.

Abstract: To control the light distribution of light emitted from a high-pressure dharge bulb (1) asymmetrically, to meet automotive head lamp legal and design requirements, a single unitary combination bulb holder and light distribution element (11) is secured to the base sleeve (4) for example by plastic rivets (8) securing a unitary bottom plate (9) to an alignment body (5, 6) which, in turn, is positioned in the base in predetermined relation to a base positioning ring (15) formed thereon. The light distribution body is trough-shaped, with the concave surface (14) facing the bulb, and extends parallel thereto.

Abstract: A gas discharge display device comprises upper and lower substrates having anodes and cathodes thereon. An envelope is formed between the upper and lower substrates and includes an ionizable gas therein. A resistance heater element is placed on the lower substrate adjacent the cathode, and at layer of dielectric material is printed over both the cathode and the heater. The heater includes a pair of trimming elements which extend parallel to one another and which may be connected at any one of a plurality of points along their lengths to achieve the desired trimmed resistance value for the heater element.

Abstract: The invention relates to a high pressure sodium vapor lamp having improved color reproduction index, which has a discharge vessel (1) placed in an outer envelope (10) and at least a pair of electrodes (4,5) and a filling comprising of at least one additive material and a fill gas, as well as a pair of current conductors (6,7) for supplying current for the electrodes (4,5). The essence of the invention resides in that especially in the case of high pressure sodium vapor lamps of low output for the increasing of the color reproduction index filaments (2,3) are arranged at the ends and outside of the discharge vessel (1) and which during the entire operation of the discharge vessel (1) are connected in series therewith.

Abstract: As the amount of light from the semiconductor light source varies depending on the temperature, the amount of exposure varies correspondingly, resulting in a grave defect that the color of the finished image will become uneven in density, tone, etc. According to the present invention, there is provided a semiconductor light source device in an image output device which outputs images by scanning with semiconductor light sources, and which is characterized in that a head block which carries the semiconductor light sources is provided with a temperature sensor and a heater so that the semiconductor light sources can be controlled so as to be kept at a constant temperature.

Abstract: An apparatus for maintaining constant pressure in gas discharge vessels, particularly for flat plasma picture screens with electron post-acceleration. The gas pressure is kept constant in the gas discharge vessel. For this purpose, a glass container preferably filled with helium is applied in the gas discharge vessel, this glass container being provided with a heater for temperature control and thus provides variable gas permeability. An apparatus of the invention is particularly employed for flat plasma picture screens.

Abstract: A high vacuum sodium vapor lamp whose discharge tube is surrounded by a heating coil connected in series with a switch opening to interrupt the heating after the lapse of a heating period sufficient to allow breakdown of the tube, is also provided with overvoltage protection and especially an element located in the lamp base, for limiting the autoinductive voltage poles to a level sufficient for breakdown of the tube but insufficient to allow breakdown between the terminals of the lamp.

Abstract: Hitherto, ionizing strips (24) arranged on a magazine wheel located in the analyzer head of a mass spectrometer have first been preheated in the measuring position, then heated up and subsequently subjected to the actual measuring operation. The result of this has been that the same time-consuming heating operation has had to be repeated completely for another ionizing strip (24) ready for measurement. It has therefore been impossible to carry out measurements comparing ionizing strips (24) directly.

Abstract: Conventional discharge tubes comprise electrodes within a separate containing vessel. The electrodes are joined to an external circuit by electrical conductors which pass through the vessel wall via an insulated side arm. Such a construction has disadvantages in that careful manufacture is required and it is also difficult to produce a desired distribution of the active medium in a laser and maintain a stable optimum temperature. In an attempt to reduce these problems the invention provides a discharge vessel which comprises electrical conductors and insulators arranged alternately so that a separate discharge vessel is not required. Since the discharge vessel is partially thermally conducting, temperature control is facilitated by its fast response to stabilizing controls, heat being supplied from an external source.

Abstract: A gas discharge display has been disclosed in which a heater has been built into the unit. A single set of parallel conductive pins provide the connections for the unit's anode, cathode and heater strip.

Abstract: A low pressure metal or metal halide vapor lamp for photocopying applications. In a preferred embodiment, the metal vapor comprises sodium. The low pressure sodium vapor lamp, having a preferred lamp aperture geometry, is operated in a continuous mode and provides illumination of increased brightness and of a color (yellow) which is optimum for providing a copy which is an accurate representation of the original. In order to decrease the warmup time of the lamp and achieve operating temperatures relatively quickly, an auxiliary heater is formed on the lamp. A two pin end cap may be used for electrical connections, one pin carrying filament power and the other carrying auxiliary heater power.

Abstract: Various sodium vapor lamp configurations are disclosed. In one, a sodium vapor discharge tube contains an excess of sodium which is condensed in predetermined locations, as for example dimples. To prevent condensation in the aperture through which light emission is desired, the discharge tube is heated at the aperture by ohmic heating of a conductive film such as tin oxide or by fine wires. In a second configuration, the discharge tube is coated on the inside with metallic sodium, the coating being internally reflective and defining an aperture, such as a slit, through which light output is directed. The aperture area is coated with a conductive coating such as tin oxide to provide ohmic heating of the aperture area so that metallic sodium condenses on the tube in areas other than the aperture. Thus, an excess of sodium is provided to control the lamp vapor pressure and also to form a light reflective coating to direct emission through the aperture.

Abstract: A method and apparatus for producing molecular radiation of a single selected gas by generating resonance photons characteristic of the single gas and at a first frequency, and directing the resonance photons into a container of the single gas producing excited molecules of the gas which molecules emit radiation at frequencies lower than the first frequency.

Abstract: A field emission ion source of the type employing a thin anode having an elongated surface utilizes local heating of the anode to prevent material from being adsorbed on the anode's surface. The anode may be a wire or a thin knife-edged metal strip through which an electrical current is passed to heat the anode.

Abstract: A high speed printer in which the ions produced between the high voltage impressed electrodes are modulated by an aperture board and then passed through an ink mist so as to electrically charge the ink particles whereby to print the desired letters, figures, signs, etc., on a printing paper, characterized in that a heating element is provided in the aperture board for lowering the relative humidity in said aperture board.

Abstract: A controllable evaporation source of parent metal species, produced either from a volatile metal or a metal halide, and under some circumstances a chemical getter sink in a sealed RF excited discharge. This discharge occurs in a second, extremely pure gas which is present in great excess over the gas produced by evaporization which may be followed by chemical decomposition. Excitation of species whose emission is desired occurs by electron impact or energy transfer from the major species which are in turn, excited by the electron impact.

Abstract: A field emission electron gun capable of generating a highly stabilized electron beam, comprises a cathode tip for emitting electrons, an anode for attracting and accelerating the electrons, and means for heating the anode. A surface layer of the anode, which is to be bombarded by the electrons, consists essentially of getter material such as Zr-Al alloy. The anode heating means serves for heating the surface layer, so as to remove the absorbed gas molecules and to elevate the gettering effect of the getter material, whereby the absorbed gas molecules in the anode are hardly released therefrom, even if the anode surface is bombarded by the electrons. Therefore, the number of ions impinging on the cathode tip is remarkably reduced, and a stable electron beam can be obtained from the cathode tip.

Abstract: The invention relates to a gas and/or vapor discharge lamp which is provided with a discharge tube and an outer bulb which envelops this tube, whilst the heat insulation in the space between the discharge tube and the outer bulb can be changed.According to the invention the heat insulation is changed by means of a reversible hydrogen getter which is located in the space between the outer bulb and the discharge tube. In this way it is obtained that the lamp can either be operated without a stabilizing ballast or that it is less sensitive to variations in the mains supply.

Abstract: An ampoule shaped electrodeless discharge tube, including a large-diameter portion and a small-diameter portion, is filled with luminous elements and inactive gas. The discharge tube is placed in a housing having a lighting window from which the light emitted by the elements is extracted. A high-frequency coil is wound around the large diameter portion at the middle portion of the discharge tube. A partition wall provided in the housing partitions the housing into a first and a second compartments. The middle portion of the discharge tube and the small diameter portion are placed in the first compartment, while the end portion of the discharge tube opposite to the small-diameter portion is placed in the second compartment, and is cooled with air-flow flowing from the inlet to the outlet, both of which are formed to the housing. When high-frequency power is supplied to the coil, the luminous elements in the discharge tube is excited to luminesce.

Abstract: A laser device employs two concentric enclosures with rapid pre-heat elements located between the two enclosures. The device contains a vented bore tube, two electrodes, and a metal vapor source within the innermost of the two enclosures.