The mercury arc lamp has long been used as a fluorescent microscope light source because of the bright spectral bands available within the visible wavelengths. Almost every new research or clinical grade fluorescent microscope is equipped with a mercury arc lamp. However, mercury arc lamps are hazardous, consume a lot of energy, have a high cost of ownership and are unreliable.
Metal halide doped mercury arc lamps have become widely employed because they address the reliability concerns around traditional mercury bulbs, increasing bulb longevity ten times. Unfortunately, metal halides contain about three times higher mercury concentration than do traditional mercury bulbs.
Ozone-free Xenon sources have no mercury, reducing the amount of hazardous waste, but they perform at a lower intensity. Solid-state technologies like LED illumination have the potential to solve all the concerns associated with the use of mercury, but LEDs alone have yet to achieve the brightness needed for microscopy.
Thus, the use of mercury lamps has remained a necessary and wide-spread source of mercury in research laboratories for decades. Lumencor has overcome the frustration associated with this dependence on mercury and has revolutionized the solid-state technology world by manufacturing Light Engines capable of replicating and exceeding the spectral properties of the mercury arc lamp.
In so doing, Lumencor has obviated the toxic disadvantages previously associated with microscopy. Light Engines allow scientists to utilize high-performance, solid-state, sustainable lighting solutions in clean, safe laboratories using mercury free microscopes.
Mercury Content in Bulbs
Only the light engine is MERCURY free. Calculations demonstrate that a single light engine can replace 15-150 mercury containing bulbs. This assumes that the mercury arc lamp is ignited but idle during half the time it is in the ON state. The table below illustrates the amount of mercury contained within these sources. The mercury is the equivalent of 9762 CFL bulbs and the metal halide lamp is the equivalent of 1242 CFL bulbs. By comparison the light engine eliminates nearly all potential mercury hazards associated with the use of illumination in scientific equipment while providing the superior performance that has come to be expected from solid-state sources.
|Statistic||Mercury arc lamp||Metal halide lamp||Light engine|
|Mercury emissions from coal (g), (0.023mg/kW•hr)||0.74||0.74||0.00|
|Total Mercury (g)||126.90||16.14||0.00|
Indicates highest cost or energy usage.
Indicates lowest cost or energy usage.