FWHM in z - worse with higher Ri?

> *****
> To join, leave or search the confocal microscopy listserv, go to:
> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
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> *****
>
> Dear listers,
>
> I am confused about the formulas for the Full Width Half Maximum of
> the point spread function along the optical axis. According to this
> paper:
>
> B. Amos, G. McConnell, T. Wilson: Confocal microscopy. In: E. Egelman
> (Hrsg.): Biophysical Techniques for Characterization of Cells (=
> Comprehensive Biophysics). Volume2. Elsevier, Academic Press,
> Amsterdam 2012, ISBN 978-0-12-374920-8
> <https://de.wikipedia.org/wiki/Spezial:ISBN-Suche/9780123749208>,
> chapter 2, pages3–23, doi
> <https://de.wikipedia.org/wiki/Digital_Object_Identifier>:10.1016/B978-0-12-374920-8.00203-4
> <https://doi.org/10.1016/B978-0-12-374920-8.00203-4>
>
> (free download here:
> http://www2.mrc-lmb.cam.ac.uk/images/groupleaders/Confocal_microscopy_Amos_McConnell_Wilson.pdf)
>
> on page 15 the formula (3)  for a conventional microscope for FWHM(z)
> with high NA (> 0.5) is
>
> FWHM(z) = (0.88*lambda) / (n-sqrt(n^2 - NA^2)) where n is refractive
> index of the immersion medium.
>
> For NA <0.5 this reduces to formula (4):
>
> FWHM(z) = (1.77*n*lambda)/(NA^2)
>
> Now, let us assume we compare two objectives with the same NA but one
> oil immersion (n=1.518), one water immersion (n=1.33). Then, with both
> formulas we get bigger (and thus worse resolution) FWHMs with the oil
> objective. All other things the same, the bigger the RI of the
> immersion medium, the worse is the resolution in z.
>
> That does not sound right. Or is it?
>
> What am I missing?
>
> The same would apply to a confocal microscope, just with a slightly
> different formula (see paper, formulas 7 and 8).
>
> Best
>
> Steffen
>

> *****
> To join, leave or search the confocal microscopy listserv, go to:
> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
> Post images on http://www.imgur.com and include the link in your posting.
> *****
>
> Dear Steffen,
>
> The issue here is that you've fixed the NAs of the water and oil
> immersion lenses in your comparison, not the semiaperture angles. By
> fixing the NA, you've given the oil immersion lens a smaller
> semiaperture angle as NA = n sin (semiaperture angle) and n is larger.
> As the waves have a smaller range of angles to the optical axis, the
> length scale over which interference effects occur is larger. When
> considering the lateral resolution, this effect is balanced out by the
> reduction is wavelength by a factor of n from the vacuum wavelength,
> such that all lenses with the same NA provide the same lateral
> resolution, irrespective of n. However, this is not the case axially.
>
> I hope this explanation hasn't made things even more confusing than they
> were before...
>
> Best wishes,
> James
>
>
>
>
> On 19/02/2021 11:40, Steffen Dietzel wrote:
> > *****
> > To join, leave or search the confocal microscopy listserv, go to:
> > http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
> > Post images on http://www.imgur.com and include the link in your
> posting.
> > *****
> >
> > Dear listers,
> >
> > I am confused about the formulas for the Full Width Half Maximum of
> > the point spread function along the optical axis. According to this
> > paper:
> >
> > B. Amos, G. McConnell, T. Wilson: Confocal microscopy. In: E. Egelman
> > (Hrsg.): Biophysical Techniques for Characterization of Cells (=
> > Comprehensive Biophysics). Volume2. Elsevier, Academic Press,
> > Amsterdam 2012, ISBN 978-0-12-374920-8
> > <https://de.wikipedia.org/wiki/Spezial:ISBN-Suche/9780123749208>,
> > chapter 2, pages3–23, doi
> > <https://de.wikipedia.org/wiki/Digital_Object_Identifier>:10.1016/B978-0-12-374920-8.00203-4
>
> > <https://doi.org/10.1016/B978-0-12-374920-8.00203-4>
> >
> > (free download here:
> >
> http://www2.mrc-lmb.cam.ac.uk/images/groupleaders/Confocal_microscopy_Amos_McConnell_Wilson.pdf
> )
> >
> > on page 15 the formula (3)  for a conventional microscope for FWHM(z)
> > with high NA (> 0.5) is
> >
> > FWHM(z) = (0.88*lambda) / (n-sqrt(n^2 - NA^2)) where n is refractive
> > index of the immersion medium.
> >
> > For NA <0.5 this reduces to formula (4):
> >
> > FWHM(z) = (1.77*n*lambda)/(NA^2)
> >
> > Now, let us assume we compare two objectives with the same NA but one
> > oil immersion (n=1.518), one water immersion (n=1.33). Then, with both
> > formulas we get bigger (and thus worse resolution) FWHMs with the oil
> > objective. All other things the same, the bigger the RI of the
> > immersion medium, the worse is the resolution in z.
> >
> > That does not sound right. Or is it?
> >
> > What am I missing?
> >
> > The same would apply to a confocal microscope, just with a slightly
> > different formula (see paper, formulas 7 and 8).
> >
> > Best
> >
> > Steffen
> >
>
> --
> James Manton
> MRC Laboratory of Molecular Biology
> Cambridge CB2 0QH, UK
> +44 (0)1223 267788
>

> *****
> To join, leave or search the confocal microscopy listserv, go to:
> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
> Post images on http://www.imgur.com and include the link in your posting.
> *****
>
> Perfect explanation, James, thanks!
> I made the same observation when I was playing with PSF generators - the
> accurate models produced more elongated PSF at higher RI, given the same NA.
> zd
>
> On Fri, Feb 19, 2021 at 7:38 AM James D. Manton <[hidden email]>
> wrote:
>
>> *****
>> To join, leave or search the confocal microscopy listserv, go to:
>> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
>> Post images on http://www.imgur.com and include the link in your posting.
>> *****
>>
>> Dear Steffen,
>>
>> The issue here is that you've fixed the NAs of the water and oil
>> immersion lenses in your comparison, not the semiaperture angles. By
>> fixing the NA, you've given the oil immersion lens a smaller
>> semiaperture angle as NA = n sin (semiaperture angle) and n is larger.
>> As the waves have a smaller range of angles to the optical axis, the
>> length scale over which interference effects occur is larger. When
>> considering the lateral resolution, this effect is balanced out by the
>> reduction is wavelength by a factor of n from the vacuum wavelength,
>> such that all lenses with the same NA provide the same lateral
>> resolution, irrespective of n. However, this is not the case axially.
>>
>> I hope this explanation hasn't made things even more confusing than they
>> were before...
>>
>> Best wishes,
>> James
>>
>>
>>
>>
>> On 19/02/2021 11:40, Steffen Dietzel wrote:
>>> *****
>>> To join, leave or search the confocal microscopy listserv, go to:
>>> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
>>> Post images on http://www.imgur.com and include the link in your
>> posting.
>>> *****
>>>
>>> Dear listers,
>>>
>>> I am confused about the formulas for the Full Width Half Maximum of
>>> the point spread function along the optical axis. According to this
>>> paper:
>>>
>>> B. Amos, G. McConnell, T. Wilson: Confocal microscopy. In: E. Egelman
>>> (Hrsg.): Biophysical Techniques for Characterization of Cells (=
>>> Comprehensive Biophysics). Volume2. Elsevier, Academic Press,
>>> Amsterdam 2012, ISBN 978-0-12-374920-8
>>> <https://de.wikipedia.org/wiki/Spezial:ISBN-Suche/9780123749208>,
>>> chapter 2, pages3–23, doi
>>> <https://de.wikipedia.org/wiki/Digital_Object_Identifier>:10.1016/B978-0-12-374920-8.00203-4
>>> <https://doi.org/10.1016/B978-0-12-374920-8.00203-4>
>>>
>>> (free download here:
>>>
>> http://www2.mrc-lmb.cam.ac.uk/images/groupleaders/Confocal_microscopy_Amos_McConnell_Wilson.pdf
>> )
>>> on page 15 the formula (3)  for a conventional microscope for FWHM(z)
>>> with high NA (> 0.5) is
>>>
>>> FWHM(z) = (0.88*lambda) / (n-sqrt(n^2 - NA^2)) where n is refractive
>>> index of the immersion medium.
>>>
>>> For NA <0.5 this reduces to formula (4):
>>>
>>> FWHM(z) = (1.77*n*lambda)/(NA^2)
>>>
>>> Now, let us assume we compare two objectives with the same NA but one
>>> oil immersion (n=1.518), one water immersion (n=1.33). Then, with both
>>> formulas we get bigger (and thus worse resolution) FWHMs with the oil
>>> objective. All other things the same, the bigger the RI of the
>>> immersion medium, the worse is the resolution in z.
>>>
>>> That does not sound right. Or is it?
>>>
>>> What am I missing?
>>>
>>> The same would apply to a confocal microscope, just with a slightly
>>> different formula (see paper, formulas 7 and 8).
>>>
>>> Best
>>>
>>> Steffen
>>>
>> --
>> James Manton
>> MRC Laboratory of Molecular Biology
>> Cambridge CB2 0QH, UK
>> +44 (0)1223 267788
>>
>