There are a few causes of luminescence, but one of the major causes is bioluminescent bacteria. They can be found independently or in a symbiotic relationship with organisms around the world.
The other types are luminescence is chemiluminescence, electroluminescence, electrochemiluminescense, photoluminescense, thermoluminescence, and thermoluminescense.
Luminescence is caused by chemical reactions within the substance.
No. They generate light by a process of chemical luminescence and contain no radioactive materials.
We will see light generated by triboluminescence, sometimes called fractoluminescence, when we see a substance glowing after it is scratched, crushed or rubbed. A link is provided to the related Wikipedia post, and you'll find that link below.
a hydrocarbon
How this sentance can be transformed into a cause and an effect is by saying.......the cause would be not knowing how to make this sentance into a cause and an effect.The effect would be you asking for help to make it a cause and effect sentance.
Luminescence - album - was created in 2004.
Journal of Luminescence was created in 1968.
Emmett W. Chappelle created LIF. A laser that can cause bio-luminescence.
bio-luminescence is light produced by a living organism, such as a firefly
bio-luminescence is light produced by a living organism, such as a firefly
Luminescence is caused by chemical reactions within the substance.
Luminous Luminescence in the Atlas Position was created in 2001.
The cast of Luminescence - 2011 includes: Enrique Santamaria
Luminescence - 2011 was released on: USA: May 2011 Colombia: November 2011
Luminescence.
Bioluminescence, chemiluminescence, crystalloluminescence, electroluminescence, photoluminesce and mechanoluminescence are all different types of luminescence. The terms are about different luminescence provenience, in the above other, biological, chemical, crystal, electrical, photo and mechanical.
it is not photo luminescence it is photoluminescence.Photoluminescence (abbreviated as PL) is a process in which a substance absorbs photons (electromagnetic radiation) and then re-radiates photons.