Difference between revisions of "Excitation Emission"

From MC Chem Wiki
Jump to navigation Jump to search
 
(2 intermediate revisions by 2 users not shown)
Line 1: Line 1:
 
[[File:20180201 161547.jpg|800px|thumb|left|Unknown fluorescent material]]
 
[[File:20180201 161547.jpg|800px|thumb|left|Unknown fluorescent material]]
  
[[File:graph1.png|400px]]
+
[[File:graph1.png|800px]]
  
[[File:graph2.png|400px]]
+
[[File:graph2.png|800px]]
  
In this project, different phosphorescent tubes were used , every tube has a different emission wavelength. As the source of light was directed into the tube, every tube emitted a wavelength and it was recorded using the UV-probe. The source of light that was used had two different excitation wavelength, however the wavelength that was used is at 360 nm. The tubes have sort of a phosphorescent source which make them eligible to be used to detect the emission light.
+
In this project, different phosphorescent tubes were used , every tube has a different emission wavelength. As the source of light (UV lamp) was directed into the tube, every tube emitted a wavelength and it was recorded using the UV-probe. The UV lamp that was used had two different excitation wavelength, however the wavelength that was used is at 365 nm. The tubes had sort of a phosphorescent source which make them eligible to be used to detect the emission light.

Latest revision as of 20:05, 8 February 2018

Unknown fluorescent material

Graph1.png

Graph2.png

In this project, different phosphorescent tubes were used , every tube has a different emission wavelength. As the source of light (UV lamp) was directed into the tube, every tube emitted a wavelength and it was recorded using the UV-probe. The UV lamp that was used had two different excitation wavelength, however the wavelength that was used is at 365 nm. The tubes had sort of a phosphorescent source which make them eligible to be used to detect the emission light.