Dichroic mirror spectral range?

  • Context: Undergrad 
  • Thread starter Thread starter geneiusxie
  • Start date Start date
  • Tags Tags
    Mirror Range
Click For Summary

Discussion Overview

The discussion revolves around the spectral range of dichroic mirrors, specifically their ability to reflect light within certain wavelength ranges. Participants explore the precision of these mirrors in reflecting specific wavelengths and the implications of various optical factors.

Discussion Character

  • Exploratory
  • Technical explanation
  • Debate/contested

Main Points Raised

  • Gene questions the typical wavelength range for dichroic mirrors and whether they can be designed to reflect light with a very narrow range, such as 530nm - 535nm.
  • One participant mentions having seen filters that can isolate a 5nm range and suggests that smaller ranges may be possible, while also noting that the angle of light affects the effectiveness of the filter.
  • Another participant speculates about creating a mirror that is transparent to the naked eye but reflects specific wavelengths from a laser, discussing the complexities involved in such a design and the cost of dichroic mirrors.
  • Gene reiterates their inquiry about the precision of dichroic mirrors and provides links to companies that manufacture optical filters, suggesting that dielectric filters can achieve narrow passbands.

Areas of Agreement / Disagreement

Participants express varying opinions on the capabilities and design considerations of dichroic mirrors, with no consensus reached on the feasibility of creating mirrors that reflect extremely narrow wavelength ranges.

Contextual Notes

Participants mention factors such as the angle of light and the potential need for gradient designs, indicating that the effectiveness of dichroic mirrors may depend on specific conditions and applications.

geneiusxie
Messages
9
Reaction score
0
Hi guys,

I'm wondering about exactly if there is some sort of range that a dichroic mirror would reflect, like a green mirror would reflect between 532nm - 600nm or something. I'm pretty sure a green dichroic mirror doesn't only reflect only 532.00000 nm and not 533 nm or something.

But what is the typical wavelength range for dichroic mirrors? And would it be possible to make a dichroic mirror so precise that it would only reflect light that deviates no more than 1% from the design wavelength? For example, would it be possible to build a mirror that only reflects 530nm - 535 nm?
Thanks.

-Gene
 
Science news on Phys.org
I've seen filters that filter out all but a 5 nm range centered on the Hydrogen Alpha emission, which is 656.28 nm. I'd be willing to bet you can get smaller.

Also, the angle of the light has a drastic effect on this range. In any optical system, a smaller F/ratio, and thus a more sharply converging light cone will reduce the effectiveness of the filter more than a larger F/ratio system.
 
Huh. I was wondering if it was possible to make a mirror that would seem 100% transparent to the naked eye, but would reflect 100% of the light of a green laser.

If you stack 3 mirrors for red, green, and blue the size of a TV and put an activated carbon material designed to absorb 95% of the material that goes through the mirrors, and combine that with a laser projector, we could get a laser projector that offers much darker blacks than standard projectors in normally-lit rooms.

Of course, dichroic mirrors seem to be pretty expensive right now, so we'd need a cheaper way to make those mirrors too. We'd also probably have to use a gradient on the wavelength that the mirrors reflect due to some areas of the screen being at different angles than others. And we'd need a way to scatter the light so people can see it. And then if the light gets scattered, the dichroic mirrors wouldn't really work because of the different angles.

Wow never mind then lol.
 
geneiusxie said:
Hi guys,

I'm wondering about exactly if there is some sort of range that a dichroic mirror would reflect, like a green mirror would reflect between 532nm - 600nm or something. I'm pretty sure a green dichroic mirror doesn't only reflect only 532.00000 nm and not 533 nm or something.

But what is the typical wavelength range for dichroic mirrors? And would it be possible to make a dichroic mirror so precise that it would only reflect light that deviates no more than 1% from the design wavelength? For example, would it be possible to build a mirror that only reflects 530nm - 535 nm?
Thanks.

-Gene

Spectral characteristics of dichroics (or any other dielectric mirror) can be designed with (AFAIK) nearly any spectral lineshape. The major companies are Omega Optical:
http://www.omegafilters.com/Products/Curvomatic

Chroma:
http://www.chroma.com/products

Semrock:
http://www.semrock.com/

Dielectric filters can have passbands as narrow as a few nm, AFAIK. If you want even more narrow passbands (say for solar observation), you have to go with a Fabry interferometer.
 

Similar threads

Undergrad Fabry-Perot Interferometer mirrors
  • · Replies 7 ·
Replies
7
Views
5K
Undergrad How Can I Build an Effective DIY Helmet-Mounted HUD?
  • · Replies 19 ·
Replies
19
Views
5K
Undergrad Photon in a mirrored box moving in direction of travel
  • · Replies 26 ·
Replies
26
Views
2K
Undergrad Reflection in spherical mirrors
  • · Replies 22 ·
Replies
22
Views
9K
Undergrad Is This....Right? Splitting LED colors is not working for me
  • · Replies 40 ·
2
Replies
40
Views
4K
What is the maximum reflection angle in the Chandra X-ray telescope optics?
  • · Replies 8 ·
Replies
8
Views
2K
Undergrad The HOM Effect, Path Entanglement, and Generation
  • · Replies 5 ·
Replies
5
Views
2K
Graduate Detection of a Specific Fluorescent Wavelength via iPhone camera
  • · Replies 3 ·
Replies
3
Views
6K
Graduate Birefringence and Automotive Window Tinting
  • · Replies 9 ·
Replies
9
Views
8K
Alt azimuth mount for heliostat design
  • · Replies 4 ·
Replies
4
Views
4K