What is a Diffraction Limited Spot in Fluorescent Molecule Imaging?

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In summary, the diffraction limited spot is the smallest possible spot that can be achieved with a system with perfect focus and optics. The size of this spot is determined by the Airy Disc, which is a result of the diffraction limit. To improve this spot, a larger numerical aperture and shorter focal length are desirable, but these factors are linked in terms of objective design.
  • #1
Alice Jin
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Dear everyone,

I'm wondering what the diffraction limited spot is.
When a laser(CW) is used to excite a fluorescent single molecule, the fluorescence from a single molecule is shown in the CCD camera. The size of fluorescence molecule is determined by Airy Disc which comes from diffraction limited spot. Is it right?
Does anyone explain this? Please~~ Thank you.
 
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  • #2
A diffraction limited spot is the best/smallest spot you can achieve with the system with perfect focus and perfect optics. Whether you can get this in real use depends on the system design/alignmnet.
It is often used for calcualtions of the limiting signal.
 
  • #3
Thank you.
Then what's the factor to improve the limited spot I can see in terms of NA or focal lenth?
 
  • #4
Not sure what you mean?
You want to collect as much of the fluorescence signal as possible, so assuming that the emission is uniform (it emits into a sphere) you want as large a numerical aperture as posible.
But then in signal-noise you want to put the spot onto as few CCD pixels as possible (ideally only one) because there is a readout noise associated with each pixel.
Which is where the diffraction limited bit comes in - for this you want a short focal length.

Unfortuantely Numerical Aperture and focal length are linked (for a given design of objective). Dependign on how weak the signal is and how much money you have - you might want to look at a schwarschild objective
 
  • #5
Alice Jin said:
Dear everyone,

I'm wondering what the diffraction limited spot is.
When a laser(CW) is used to excite a fluorescent single molecule, the fluorescence from a single molecule is shown in the CCD camera. The size of fluorescence molecule is determined by Airy Disc which comes from diffraction limited spot. Is it right?
Does anyone explain this? Please~~ Thank you.

I think you are mixing concepts- the size of the fluorophore is not related to any optical properties of the system, it's a physical size of a molecule.

"diffraction limited" is taken to mean an aberration-free optical system. In this case, luminous points are imaged as Airy disks (YMMV- the assumption is that the aperture stop is rotationally symmetric and the optical system is linearly shift-invariant). The 'size' of the Airy function, which can also have several meanings, is usually taken to be similar to a full width half maximum and is given as 0.61*wavelength/(numerical aperture)

http://en.wikipedia.org/wiki/Airy_disc
 

What is a diffraction limited spot?

A diffraction limited spot is the smallest possible spot of light that can be formed by a lens or optical system. It is limited by the phenomenon of diffraction, which causes light waves to spread out as they pass through an aperture or opening, resulting in a blurrier image.

How is the size of a diffraction limited spot determined?

The size of a diffraction limited spot is determined by the wavelength of light and the size of the aperture or opening through which it passes. The smaller the wavelength and the larger the aperture, the smaller the diffraction limited spot will be.

Why is it important to minimize the size of a diffraction limited spot?

Minimizing the size of a diffraction limited spot is important in many applications, such as microscopy and laser technology, where a clear and precise image is necessary. A smaller spot size allows for better resolution and sharper images.

Can the size of a diffraction limited spot be reduced?

The size of a diffraction limited spot can be reduced by using a lens with a larger aperture, using a shorter wavelength of light, or using specialized techniques such as adaptive optics. However, there is a fundamental limit to how small a diffraction limited spot can be.

Are there any drawbacks to minimizing the size of a diffraction limited spot?

While minimizing the size of a diffraction limited spot can improve image quality, it can also result in a decrease in overall brightness. This is because a smaller spot size means that the same amount of light is spread out over a smaller area, resulting in a lower intensity. This trade-off must be carefully considered in applications where both image quality and brightness are important.

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