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Gas-discharge Lamp Information

Gas-discharge lamps are a family of artificial light sources that generate light by sending an electrical discharge through an ionized gas, i.e. a plasma. The character of the gas discharge critically depends on the frequency or modulation of the current: see the entry on a frequency classification of plasmas. Typically, such lamps use a noble gas (argon, neon, krypton and xenon) or a mixture of these gases. Most lamps are filled with additional materials, like mercury, sodium, and/or metal halides. In operation the gas is ionized, and free electrons, accelerated by the electrical field in the tube, collide with gas and metal atoms. Some electrons in the atomic orbitals of these atoms are excited by these collisions to a higher energy state. When the excited atom falls back to a lower energy state, it emits a photon of a characteristic energy, resulting in infrared, visible light, or ultraviolet radiation. Some lamps will convert the ultraviolet radiation to visible light with a fluorescent coating on the inside of the lamp's glass surface. The fluorescent lamp is perhaps the best known gas-discharge lamp.

Gas-discharge lamps offer long life and high efficiency, but are more complicated to manufacture, and they require electronics to provide the correct current flow through the gas.

Contents

History

The history of gas-discharge lamps began in 1675 when French astronomer Jean-Felix Picard observed that the empty space in his mercury barometer glowed as the mercury jiggled while he was carrying the barometer.[1] Investigators, including Francis Hauksbee, tried to determine the cause of the phenomenon. Hauksbee first demonstrated a gas-discharge lamp in 1705. He showed that an evacuated or partially evacuated glass globe, while charged by static electricity could produce a light bright enough to read by. The phenomenon of electric arc was first described by Vasily V. Petrov, a Russian scientist, in 1802; Sir Humphry Davy demonstrated in the same year the electric arc at the Royal Institution of Great Britain. Since then, discharge light sources have been researched because they create light from electricity considerably more efficiently than incandescent light bulbs.

Later it was discovered that the arc discharge could be optimized by using an inert gas instead of air as a medium. Therefore noble gases neon, argon, krypton or xenon were used, as well as carbon dioxide historically.

The introduction of the metal vapor lamp, including various metals within the discharge tube, was a later advance. The heat of the gas discharge vaporized some of the metal and the discharge is then produced almost exclusively by the metal vapor. The usual metals are sodium and mercury owing to their high vapor pressures that increase efficiency of visible spectrum emission.

One hundred years of research later led to lamps without electrodes which are instead energized by microwave or radio frequency sources. In addition, light sources of much lower output have been created, extending the applications of discharge lighting to home or indoor use.

Color

Each gas, depending on its atomic structure emits certain wavelengths which translates in different colors of the lamp. As a way of evaluating the ability of a light source to reproduce the colors of various objects being lit by the source, the International Commission on Illumination (CIE) introduced the color rendering index. Some gas-discharge lamps have a relatively low CRI, which means colors they illuminate appear substantially different than they do under sunlight or other high-CRI illumination.

Gas Color Spectrum Notes Image
Helium White to orange; under some conditions may be gray, blue, or green-blue. Used by artists for special purpose lighting.
Neon Red-orange Intense light. Used frequently in neon signs and neon lamps.
Argon Violet to pale lavender blue Often used together with mercury vapor.
Krypton Gray off-white to green. At high peak currents, bright blue-white. Used by artists for special purpose lighting.
Xenon Gray or blue-gray dim white. At high peak currents, very bright green-blue. Used in flashbulbs, xenon HID headlamps, and xenon arc lamps.
Nitrogen Similar to argon but duller, more pink; at high peak currents bright blue-white.
Oxygen Violet to lavender, dimmer than argon
Hydrogen Lavender at low currents, pink to magenta over 10 mA
Water vapor Similar to hydrogen, dimmer
Carbon dioxide Blue-white to pink, in lower currents brighter than xenon Used in Carbon Dioxide Lasers.
Mercury vapor Light blue, intense ultraviolet

Ultraviolet not shown

 In combination with phosphors used to generate many colors of light. Widely used in mercury-vapor lamps.
Sodium vapor (low pressure) Bright orange-yellow Widely used in sodium vapor lamps.

Most common gas-discharge lamps

Low pressure discharge lamps

A Compact fluorescent lamp

Low-pressure lamps have working pressure much less than atmospheric pressure.

High pressure discharge lamps

High-pressure lamps have a discharge that takes place in gas under slightly less to greater than atmospheric pressure. For example, a high pressure sodium lamp has an arc tube under 100 to 200 torr pressure, about 14% to 28% of atmospheric pressure; some automotive HID headlamps have up to 50 bar or fifty times atmospheric prssure.

High-intensity discharge lamps

15 kW xenon short-arc lamp used in IMAX projectors Main article: High-intensity discharge lamp

A high-intensity discharge (HID) lamp is a type of electrical lamp which produces light by means of an electric arc between tungsten electrodes housed inside a translucent or transparent fused quartz or fused alumina arc tube. Compared to other lamp types, relatively high arc power exists for the arc length. Examples of HID lamps include:

HID lamps are typically used when high levels of light over large areas are required, and when energy efficiency and/or light intensity are desired.

Other examples

See also

References

  1. ^ See Wikipedia's article: Barometric light.

Further reading

External links

Wikimedia Commons has media related to: Gas discharge lamps
· · Lamps and lighting
Incandescent Regular · Halogen · Parabolic aluminized reflector (PAR) · Nernst
Fluorescent Fluorescent (Compact) · Fluorescent induction
High-intensity discharge (HID) Mercury-vapor · Hydrargyrum medium-arc iodide (HMI) · Hydrargyrum quartz iodide (HQI) · Metal halide (Ceramic) · Sodium vapor
Gas discharge Deuterium arc · Neon · Sulfur · Xenon arc / Xenon flash · Black light · Tanning lamp · Germicidal · Growth light
Electric arc Carbon arc · Yablochkov candle
Combustion Acetylene/Carbide · Argand · Candle · Diya · Gas · Kerosene · Lantern · Limelight · Oil · Safety · Rushlight · Tilley · Torch
Other Lamp (electrical component) · Light fixture · Light-emitting diode (LED) · LED lamp · Solid-state (SSL) · Plasma · Electroluminescent wire · Chemiluminescence · Radioluminescence · Glow stick · ESL

Categories: Gas discharge lamps | Light sources

 

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