Who Emits UV in Fluorescent Lamps?

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SUMMARY

Fluorescent lamps primarily emit UV light due to the ionization of mercury, which is vaporized and ionized within the lamp. The argon gas serves as a buffer to facilitate the initial vaporization of mercury. The dominant UV emission lines from these lamps occur at 253 nm and 365 nm, with germicidal bulbs specifically utilizing the 253 nm line for sterilization purposes. Understanding these mechanisms is crucial for comprehending the operation of fluorescent lighting systems.

PREREQUISITES
  • Understanding of low-pressure mercury arc lamps
  • Knowledge of atomic emission and spectral lines
  • Familiarity with ionization processes in gases
  • Basic principles of plasma physics
NEXT STEPS
  • Research the physics of low-pressure mercury vaporization
  • Explore the role of argon as a buffer gas in fluorescent lamps
  • Study the emission spectra of mercury and its applications in germicidal lighting
  • Investigate the differences between standard and germicidal fluorescent bulbs
USEFUL FOR

Electrical engineers, lighting designers, and anyone involved in the development or application of fluorescent lighting technologies.

giuliopascal
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Hi everyone,

searching on the web about how the fluorescent lamps work, I cannot understand if the UV is emitted by the noble gas or the mercury.
For what I understand, both of them ionize, and the UV light is emitted after the collision of the electrons with the atoms, but I would like to know something more about this process and the specific role of argon and mercury.

Thank you very much!
 
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There are three emission mechanisms in play: atomic emission from spectral lines, thermal emission of matter at a given temperature, and emission from charged particles when they undergo acceleration.

Atomic emission from spectral lines can be traced to specific atomic species. Thermal emission can be traced if the sources have different temperatures, but the temperature of the gases in the tube are not high enough for UV. Emission from charged particles is harder to trace. A thermal or electrical plasma will simply emit radiation related to its charged particles acclerating and colliding. I don't think one can conclude that one charged particle plays a much larger role than the others.
 
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giuliopascal said:
Hi everyone,

searching on the web about how the fluorescent lamps work, I cannot understand if the UV is emitted by the noble gas or the mercury.
For what I understand, both of them ionize, and the UV light is emitted after the collision of the electrons with the atoms, but I would like to know something more about this process and the specific role of argon and mercury.

Thank you very much!

Typical fluorescent bulbs are essentially low-pressure mercury arc lamps. There is a lot of heavy-duty physics involved, but basically the Hg is first vaporized and then ionized. When the Hg ion recombines with an electron, light is emitted. The argon is a 'buffer gas' and is only there to assist the initial vaporization of Hg.

http://www.lamptech.co.uk/Documents/M1 Introduction.htm

The dominant UV emission lines for these bulbs are at 253 and 365 nm:

http://physics.nist.gov/PhysRefData/Handbook/Tables/mercurytable3.htm#1849.499

Germicidal bulbs use the 253 nm line to sterilize.
 
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Thank you very much. Now I understand a little more :oldsmile:
 

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