Colored Light or Colored Object?

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In summary, electro-luminescence is the production of light from a material when an electric current is passed through it.
  • #1
Odal
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Is it possible to modulate light as it is to modulate sound.?That is, taking "white" light and changing its color without using a filter or another object like a prism?
 
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  • #2
Welcome to the PF.

Filtering a color out of white light is not modulation, it is just selectively filtering the many colors of white light to get one particulat color.

Modulation has a technical meaning -- it means modifying a waveform in amplitude, phase or frequency:

https://en.wikipedia.org/wiki/Modulation

If you have a light wave or a sound wave propagating through your apparatus (pickup antenna, modulator, transmit antenna), you can do some things to it, but other things are harder. For example, amplitude modulating a sound wave or a light wave with such a setup is straightforward. Phase modulating them is harder, and frequency modulating them is very specialized if possible at all. (Assuming you mean just doing something to the propagating waveform, as opposed to converting it to electrical signals that you process and re-transmit with an antenna or transducer)

Can you say more about the context of your question? That will help us to give you the best answers that we can. :smile:
 
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  • #3
White light is what we see as a fairly evenly mixed wavelengths of light within the visible spectrum.
Not surprising really since we evolved on Earth and the peak wavelengths of the Sun are in that range.
The equivalent with sound would be 'white noise', a vague hiss comprising of many frequencies.
It is possible to filter both light and sound so that some chosen frequencies are more or less apparent.
That isn't modulation though. it's just cutting out the bits you don't want.
 
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  • #4
Odal said:
Is it possible to modulate light
Did you do a search on "Optical Modulators"? Does this question come from personal curiosity or did you have an application in mind?
Light Modulation is more or less what the LCD cells in front of a conventional back lit LCD monochrome TV display do. The cells Modulate the Amplitude of the light.
But modulating the amplitude is easy.
Modulating the frequency of a beam of light is much harder. It is possible to 'mix' optical signals to produce a sum or difference frequency (it's much easier to achieve this with Radio Frequency signals and that's done in radio and TV receivers).
 
  • #5
Thanks everybody for the reactions. Here is what I mean as succinctly as possible.
The theory says that white light (or sunlight if you prefer) is a mix of (all) colors. Beyond all the technicalities I wonder how that can be proven otherwise than by letting it through a prism like Newton did.
As far as I know, colors from a tv screen for instance, come from Red Green Blue filters. That is, white light goes through these colored filters and get the color of the filter, and that is exactly what I find intriguing. Could it be possible, however that is done, to produce colors without those filters? I used the term modulation as an analogy, so please do not hold me to that term. The point is we can change how a sound sounds, can we then change the color of say a beam of light without letting it pass through filters which are already colored?
 
  • #6
Odal said:
That is, white light goes through these colored filters and get the color of the filter, and that is exactly what I find intriguing. Could it be possible, however that is done, to produce colors without those filters?
That's how a color LCD display works, but not how an LED display works... :smile:
 
  • #7
berkeman said:
That's how a color LCD display works, but not how an LED display works... :smile:
I am afraid I do not see how that is relevant. I do not know enough about the differences between both. Do you mean to say that LED screens already do what I am asking about? If so, I would be very curious how it is done.
 
  • #8
Odal said:
I am afraid I do not see how that is relevant. I do not know enough about the differences between both. Do you mean to say that LED screens already do what I am asking about? If so, I would be very curious how it is done.
Red, green and blue LEDs are used to generate the light. They do not start with white light and filter the light. So colored LEDs generate their colored light in a fundamentally different way compared to colored incandescent bulbs. And I thought that was what you were looking for... :smile:
 
  • #10
berkeman said:
And here is a link for more reading...

https://en.wikipedia.org/wiki/Light-emitting_diode

:smile:
It is certainly very interesting, but what I make of it still does not answer my question. I may be wrong but this is how I understand electro-luminescence. Crystals when put under electric current produce colored light. The color is apparently linked to the kind of crystal. If I am right, then it is the same thing as having white light going through a colored filer, only in the case of leds, it is the filters themselves that give off light?
Did I understand it wrong?

edit: it is somehow comparable (only an analogy!) to cathode rays. They all have different colors depending on the gases in the tube, right?
 
  • #11
Odal said:
Crystals when put under electric current produce colored light.
Odal said:
If I am right, then it is the same thing as having white light going through a colored filer, only in the case of leds, it is the filters themselves that give off light?
No, it is fundamentally different. Have you learned yet about how electron energy level transitions in atoms can give off photons?
 
  • #12
berkeman said:
No, it is fundamentally different. Have you learned yet about how electron energy level transitions in atoms can give off photons?

It would help if you explained how it is fundamentally different. The first thing that comes to mind are the black-body experiments that started the whole quantum adventure. But please let us keep to crystals and leds.
 
  • #13
Odal said:
please let us keep to crystals
First can you say what you mean by "crystals"? Can you post some links to the reading you have been doing about crystals generating light? Thanks.
 
  • #14
berkeman said:
First can you say what you mean by "crystals"? Can you post some links to the reading you have been doing about crystals generating light? Thanks.
The Wikipedia article in your previous posts. Again I apologize for my imprecise terminology, it refers to different materials used in the diodes. Here is a quote from this article:
"
220px-SiC_LED_historic.jpg

Green electroluminescence from a point contact on a crystal of SiCrecreates Round's original experiment from 1907.
Electroluminescence as a phenomenon was discovered in 1907 by the British experimenter H. J. Round of Marconi Labs, using a crystal of silicon carbide and a cat's-whisker detector
 

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  • #15
Odal said:
The theory says that white light (or sunlight if you prefer) is a mix of (all) colors.
Yes.
Odal said:
colors from a tv screen for instance, come from Red Green Blue
Yes.
Odal said:
we can change how a sound sounds
Yes.

And?
 
  • #16
rootone said:
Yes.

Yes.

Yes.

And?
You are not seriously expecting an answer?
 
  • #17
Odal said:
You are not seriously expecting an answer?
I was expecting a question,
 
  • #18
rootone said:
I was expecting a question,
I have trouble taking your remark seriously, and I would not know how to respond without rehashing the whole thread.
 
  • #19
Odal said:
You are not seriously expecting an answer?
Well, we are trying to help you, and trying to determine your background and level of knowledge.

Please do some reading and then tell us why incandescent lights are fundamentally different from LED lights. That's a good start. Thanks.
 
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  • #20
berkeman said:
Well, we are trying to help you, and trying to determine your background and level of knowledge.

Please do some reading and then tell us why incandescent lights are fundamentally different from LED lights. That's a good start. Thanks.
I have been reading for years on the subject, even though the last time I had formal lessons in Physics was in High school, in the 60's and 70's.
I have read the article you kindly linked and gave my opinion. I take your remarks very seriously, but I cannot take any remark seriously, not when it shows a complete disregard of what has been written in the thread.
 
  • #21
Odal said:
the last time I had formal lessons in Physics was in High school, in the 60's and 70's.

I want to take you to the start then

There is a difference between "colour" and "light" in the sense you are talking about - they are not the same thing. Colour is a process not a thing in itself.
A light source (say the sun) hits an object (say a flower) some of that light is absorbed and some is reflected into your eye which are received by specialized cells in your eye, this stimulation is relayed to the brain where a "colour" is assigned. You "see" it. There are many steps to get from the light source to the picture in your brain. White light is all the visible frequencies you are able to detect ROYGBINV. To change the "colour" of any individual light you would have to change the wavelength as has been mentioned
 
  • #22
pinball1970 said:
I want to take you to the start then

There is a difference between "colour" and "light" in the sense you are talking about - they are not the same thing. Colour is a process not a thing in itself.
A light source (say the sun) hits an object (say a flower) some of that light is absorbed and some is reflected into your eye which are received by specialized cells in your eye, this stimulation is relayed to the brain where a "colour" is assigned. You "see" it. There are many steps to get from the light source to the picture in your brain. White light is all the visible frequencies you are able to detect ROYGBINV. To change the "colour" of any individual light you would have to change the wavelength as has been mentioned
And I take you to use your logic instead of mindlessly repeating what is in textbooks. My question is very simple and you did not answer it.
You can chant all the conjurations you can think of, but here is again my simple question: is it possible to produce colored light without already colored objects or filters?

edit: to use your own expression, can you change the wavelength of light (what I meant non-technically by modulation) and therefore change how we see its color, and this once again, without making use of colored objects or filters?
 
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  • #23
Odal said:
I have been reading for years on the subject, even though the last time I had formal lessons in Physics was in High school, in the 60's and 70's.
I have read the article you kindly linked and gave my opinion. I take your remarks very seriously, but I cannot take any remark seriously, not when it shows a complete disregard of what has been written in the thread.
@Odal It may be a good idea for you to rewind and start again here. I know of no one on PF who's more helpful and co operative than @berkeman so I can assure you he is trying to help and not just to argue. :smile:
Your OP has only one real answer to it and that answer is no. That is not to say that there is not a process that takes light in of one frequency and dishes out the 'same' light with a different frequency (The word Colour only has meaning in the context of Human Vision; you have to use the words Spectrum, Frequency or Wavelength, which can a actually be measured.
 
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  • #24
Odal said:
You can chant all the conjurations you can think of, but here is again my simple question: is it possible to produce colored light without already colored objects or filters?
That question is actually meaningless; you would need to make it much more clear what you actually want to know.. You are annoyed because you are dissatisfied with the answers you are getting.
Firstly, you have to realize that you are highly unlikely to have found an error in established Science. Secondly, a more polite approach will yield a better response.
 
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  • #25
sophiecentaur said:
@Odal It may be a good idea for you to rewind and start again here. I know of no one on PF who's more helpful and co operative than @berkeman so I can assure you he is trying to help and not just to argue. :smile:
Your OP has only one real answer to it and that answer is no. That is not to say that there is not a process that takes light in of one frequency and dishes out the 'same' light with a different frequency (The word Colour only has meaning in the context of Human Vision; you have to use the words Spectrum, Frequency or Wavelength, which can a actually be measured.
I am very grateful to you for answering my question directly instead of hiding behind common knowledge that is quite irrelevant to the issue here.
The answer is therefore: no, it is not possible to produce colored light without using already colored objects or filters?
Or, to put it in non-anthropomorphic terms: no, it is not possible to change the wavelength or frequency of a light beam without using filters or objects that absorb different wavelengths and frequencies?
This is a very serious matter with far reaching theoretical consequences, even if the practical consequences are inexistent.

ps: I certainly do not deny the willingness of @berkeman to help, and I do not think I have in any way shown any lack of respect. I did get irritated by some rude remarks from others and reacted accordingly.
 
  • #26
The Color of an Object is its own
can be said to be the most evident consequence of the fact that it is impossible to change the frequency/wavelength of light without the interference of colored objects.
The assumption that a red object appears red to us because it absorbs other colors becomes a gratuitous assumption. It is after all an unprovable assertion, and therefore not of much use.
If the color of an object is its own and not a play of reflecting and reflected light, then even cosmology has to be revised. The so-called Doppler effect or color shift for distant stars loses any signification it might have had. Blue stars appear blue because they are blue, and not because they are traveling away from us.
These are but a few theoretical consequences of my question. Maybe that will encourage others to look critically at it in a serious manner.
 
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  • #27
It would appear the original question has been satisfactorily answered and to avoid this straying into personal theory territory, this thread is now locked. @Odal ; PF is a place for teaching/learning established science, not for developing new personal theories. Thanks to everyone who contributed.
 

1. What is the difference between colored light and colored object?

Colored light refers to visible light that has a specific wavelength and appears as different colors to the human eye. On the other hand, colored objects are physical objects that reflect certain wavelengths of light, making them appear as a specific color.

2. How does colored light affect the perception of colored objects?

Colored light plays a crucial role in how we perceive the colors of objects. When colored light shines on an object, the object absorbs certain wavelengths and reflects others, which we then see as its color. The color of the object can also appear different under different colored lights.

3. Can colored light change the color of an object?

Yes, colored light can change the color of an object. When colored light shines on an object, the object will absorb certain wavelengths and reflect others. Depending on the color of the light, the object's color may appear different to our eyes.

4. How do we see colors?

We see colors through the process of light absorption and reflection. When light hits an object, the object will absorb certain wavelengths and reflect others. The reflected light enters our eyes and stimulates our color receptors, allowing us to see the object's color.

5. Why do objects appear black or white in the absence of light?

Objects appear black in the absence of light because they are not reflecting any wavelengths of light that our eyes can detect. On the other hand, objects appear white when they reflect all wavelengths of light, making them appear colorless to our eyes.

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