Phosphor: Difference between revisions
No edit summary |
No edit summary |
||
Line 14: | Line 14: | ||
[[File:Phosphor summary table.jpg|750px]] | [[File:Phosphor summary table.jpg|750px]] | ||
[[File:Phosphors.jpg|750px]] | [[File:Phosphors.jpg|750px]] | ||
[[File:Phosphor reference table rev c 1966.jpg|750px]] | [[File:Phosphor reference table rev c 1966.jpg|750px]] | ||
[[File:Phosphor decay table rev a 1966.jpg|750px]] | [[File:Phosphor decay table rev a 1966.jpg|750px]] | ||
Revision as of 04:45, 28 November 2019
In a context of chemistry, or when referring to cathode-ray tubes, phosphor refers to any of various compounds of transition metals or of rare earths that exhibits phosphorescence. This is not to be confused with the chemical element phosphorus (symbol P, atomic number of 15) which emits light due to chemiluminescence, not phosphorescence.
CRT phosphors were standardized beginning around World War II and designated by the letter "P" followed by a number. In most early scopes, the standard phosphor was P-2. By the late 1950s, P-31 became dominant. For scopes primarily used with photographic recording, the blue P-11 phosphor was common.
The choice of phosphor for a CRT is based on the intended application of the instrument. The phosphor affects:
- trace color
- maximum trace brightness
- trace width
- persistence time
- writing rate
- resistance to burns
Further reading
- http://www.bunkerofdoom.com/tubes/crt/crt_phosphor_research.pdf
- Tektronix Circuit Concepts: Cathode Ray Tubes (see chapters 9 through 16)
- C50 series camera manual, pages 3-1 to 3-7 - detailed data on P1, P2, P7, P11 and P31 phosphors