First produced in the 2 kW size (XBO2001), and the 1 kW (XBO1001) these lamps saw wide use in movie projection, where they replaced the older, more labor-intensive (to operate) carbon arc lamps. The technology was commercially introduced by German Osram in 1952. The plasma is accelerated towards the anode and stabilised by the electrode shapes plus intrinsic magnetic compression generated by the current flow, and convection effects controlled by the bulb shape.įollowing these developments, the first successful public projection using xenon light was performed on 30 October 1950, when excerpts from a colour film ( Das Schwarzwaldmädel) were shown during the 216th session of the German Cinematographic Society in Berlin. Most light is generated immediately in front of the cathode tip, where arc temperatures reach 10,000☌. The cathode is kept small to reach high temperatures for thermionic emission, the anode being larger to dissipate the heat generated as incoming electrons are decelerated. Osram's primary contribution to this achievement was its thorough research of xenon discharge physics, which directed its developments towards very short arcs for DC operation with a particular electrode and bulb geometry. The xenon lamp promised tremendous advantages of a more stable arc with less flicker, and its non-consumable electrodes allowed longer films to be shown without interruptions. This triggered intensive efforts at the German Osram company to further develop the technology as a replacement for carbon arcs in cinema projection. Owing to wartime limitations on the availability of this noble gas, significant progress was not made until John Aldington of the British Siemens lamp company published his research in 1949. Schulz in 1944, following his discovery of its near-continuous spectrum and high colour rendering white light. Interest in the xenon discharge was first aroused by P. History An early short arc xenon lamp, the Osram-STUD XBO 1001 of ~1954 The lifetime of a xenon arc lamp varies according to its design and power consumption, with a major manufacturer quoting average lifetimes ranging from 500 hours (7kW) to 1,500 (1kW). For xenon flashtubes, a third "trigger" electrode usually surrounds the exterior of the arc tube. The glass tube is first evacuated and then re-filled with xenon gas. Xenon arc lamps can be roughly divided into three categories: continuous-output xenon short-arc lamps, continuous-output xenon long-arc lamps, and xenon flash lamps (which are usually considered separately).Įach consists of a fused quartz or other heat resistant glass arc tube, with a tungsten metal electrode at each end. For instance, Xenon arc lamps with mercury lamps are the two most common lamps used in wide-field fluorescence microscopes Types It produces a bright white light to simulate sunlight, with applications in movie projectors in theaters, in searchlights, and for specialized uses in industry and research.
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