Low Pressure Mercury Vapour Lamp Diagram

As pressure increases the chance of multiple collisions gets increased.

Low pressure mercury vapour lamp diagram.

Fused silica is used in the manufacturing to keep the 184 nm light from being absorbed. This coating covers more than 70 of the diameter of the lighted length of the lamp. One would tip the lamp and electrical contacts on each side of the lamp would send electricity through a liquid mercury which started the lamp. The first mercury vapor lamps were in a lower pressure tube.

In low pressure mercury vapor lamps only the lines at 184 nm and 254 nm are present. Amalgam lamps use a mercury amalgam mix to control mercury vapor pressure. Low pressure and high pressure low pressure sodium lamps are highly efficient electrical light sources but their yellow light restricts applications to outdoor lighting such as street lamps where they are widely used. Again transition of the electrons requires least amount of input energy from a colliding electron.

In case of fluorescent lamp the mercury vapour pressure is maintained at lower level such that 60 of the total input energy gets converted into 253 7 nm single line. Rather than a cold spot the lamp s amalgam spot on pellet regulates mercury vapor pressure during operation and yields up to three times the uvc output of a standard low pressure mercury lamp of the same length. The aperture phosphor coated lamps that jelight company produces employ the same basic design as the double bore low pressure mercury vapor lamps with the exception of a special phosphor coating. In medium pressure mercury vapor lamps the lines from 200 600 nm are present.