Darkfield diagnostic test slide
Darkfield diagnostic test slide
Messing about with various darkfield condensers with some success and some failures, I wanted to see what was going on with the failures.
I used a white 'water-based liquid chalk' marker pen, but the particles were a bit too dense, dipping the tip of the pen in a few drops of water 3 times seemed to make things better.
The nearest slide seems to me to be about the right dilution: The coverslip was put on with SuperGlue ... a drop on the coverslip, turn it over (not too slowly!) and lower it down. The chalk seems accelerate the glue ; in two minutes the slide can be moved without it glueing to your fingers
I used a white 'water-based liquid chalk' marker pen, but the particles were a bit too dense, dipping the tip of the pen in a few drops of water 3 times seemed to make things better.
The nearest slide seems to me to be about the right dilution: The coverslip was put on with SuperGlue ... a drop on the coverslip, turn it over (not too slowly!) and lower it down. The chalk seems accelerate the glue ; in two minutes the slide can be moved without it glueing to your fingers
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Re: Darkfield diagnostic test slide
Interested to see how you get on.
Canada balsam and xylene here.
A little bit goes a long way,spill a few drops for a whole new experience in clean up.
Canada balsam and xylene here.
A little bit goes a long way,spill a few drops for a whole new experience in clean up.
Re: Darkfield diagnostic test slide
Superglue is not a good mount! ..but it was deadly quick ; the refractive index seems quite different where it starts to set... the slides show a curious ripple effect.
The 'screen' does help if things arent going as they should ..I had a slightly twisted mount with a CTS , one DF patched abbe condenser that couldnt get quite close enough to the slide, a couple of cases where I hadnt got the light aligned perfectly and some condensers seemed to show two quite different DF foci (!)
To give an idea of what it looks like: Here is a pic of an image of a 2 inch square diffuse light source on the diluted chalk mark with a 4x objective:
And here is one edge of the diluted chalk mark with a 50x objective:
The 'screen' does help if things arent going as they should ..I had a slightly twisted mount with a CTS , one DF patched abbe condenser that couldnt get quite close enough to the slide, a couple of cases where I hadnt got the light aligned perfectly and some condensers seemed to show two quite different DF foci (!)
To give an idea of what it looks like: Here is a pic of an image of a 2 inch square diffuse light source on the diluted chalk mark with a 4x objective:
And here is one edge of the diluted chalk mark with a 50x objective:
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Re: Darkfield diagnostic test slide
Is that the X50 .95 Watson oil?
Re: Darkfield diagnostic test slide
Yes, the long modern sort. I tried it with an older 3.75mm 0.95 Beck too ...both the the same.
I have just scuttled off and got my micrometer; the slide thickness is ~1.1mm.
I have just scuttled off and got my micrometer; the slide thickness is ~1.1mm.
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Re: Darkfield diagnostic test slide
Your "diagnostic test slide" shows promise, I think. However, to be truly diagnostic you'd probably want to know the particle size and use a mountant as close to a RI of 1.5 as possible.
Maybe we could, as a community, find "inks" with a particle size in the 300nm range; diagnosing super-resolution dark field set-ups would be enormously cool and useful.
Maybe we could, as a community, find "inks" with a particle size in the 300nm range; diagnosing super-resolution dark field set-ups would be enormously cool and useful.
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Re: Darkfield diagnostic test slide
The Watson zonal DF oil condenser has a small refractive indent in the centre of the top lens.
It can be seen in the 4x image as a ring around the central square of illumination.
It's oil filled,not user serviceable.
Realistically the na is still limited to .95.
Considering it's 1950's RMS it's still very effective for resolution.
The brochure says it's not suitable for the microsystem 70 but I haven't found why that was suggested.
Can be challenging to find the first one.
Can't say it's more rewarding than some DIY alternatives with an abbe.
It can be seen in the 4x image as a ring around the central square of illumination.
It's oil filled,not user serviceable.
Realistically the na is still limited to .95.
Considering it's 1950's RMS it's still very effective for resolution.
The brochure says it's not suitable for the microsystem 70 but I haven't found why that was suggested.
Can be challenging to find the first one.
Can't say it's more rewarding than some DIY alternatives with an abbe.
Re: Darkfield diagnostic test slide
You are probably aware of this resource, Phill … but I will put it here for general reference:
https://cnum.cnam.fr/pgi/fpage.php?M997 ... 00/119/0/0
[ hopefully that links to Page 31 ]
MichaelG.
https://cnum.cnam.fr/pgi/fpage.php?M997 ... 00/119/0/0
[ hopefully that links to Page 31 ]
MichaelG.
Too many 'projects'
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Re: Darkfield diagnostic test slide
Resolution test slides have value only if the grid or particle size is known. Up until recently , diatoms have served that purpose and across most illumination techniques.
Once ca shows up in the image, it throws a question mark on the system because it masks resolution. One of the principle values of DF is that it is potentially a ca free imaging system, so that it can show inclusions and embedded details within a fairly homogeneous matrix well. Once ca becomes evident, those details lose definition, so resolution becomes irrelevant. It becomes kind of like fluorescence in some ways, you can see that the structure or particle is there but you cannot really determine anything about it.
Once ca shows up in the image, it throws a question mark on the system because it masks resolution. One of the principle values of DF is that it is potentially a ca free imaging system, so that it can show inclusions and embedded details within a fairly homogeneous matrix well. Once ca becomes evident, those details lose definition, so resolution becomes irrelevant. It becomes kind of like fluorescence in some ways, you can see that the structure or particle is there but you cannot really determine anything about it.
Re: Darkfield diagnostic test slide
Perhaps a more or less uniform layer of small opaque particles of a defined diameter can serve for that purpose. Polystyrene spheres and other polymer particles are available from lab suppliers as suspensions that can be diluted with water as needed. A dried drop on the coverslip will make the test slide. Home-available alternatives - maybe diluted milk (a suspension of fat globules). Another, less elegant idea - a coverslip that has been very lightly exposed to cigarette smoke, so is coated with soot particles. Soot particles are visible when they float in air (Tyndall effect) so, I think, can serve on a slide as well. But never tried any of those ideas.
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Re: Darkfield diagnostic test slide
Thanks.MichaelG. wrote: ↑Tue Nov 28, 2023 9:51 amYou are probably aware of this resource, Phill … but I will put it here for general reference:
https://cnum.cnam.fr/pgi/fpage.php?M997 ... 00/119/0/0
[ hopefully that links to Page 31 ]
MichaelG.
That's an older version?
Later is code 155/4 1.2mm.
Funnel stop for x100/1.30 is code 786.
Funnel stop for x90/1.30 FL is code 781.
Just so you know the parts are out there.
I have a x90/1.37 short barrel type.
The stops are a screw in type.
Re: Darkfield diagnostic test slide
Interesting; I have a Watson threaded one with a ~3/4" diameter glass on the top; there is no sign of oil inside it.The Watson zonal DF oil condenser has a small refractive indent in the centre of the top lens.
It can be seen in the 4x image as a ring around the central square of illumination.
It's oil filled,not user serviceable.
Realistically the na is still limited to .95.
Considering it's 1950's RMS it's still very effective for resolution.
Looks like this: Except that it has a black circle on the top much like I imagine 'spot lenses' to have.
I reckon that the thing in the middle is an engraved centering ring.
Quite envious of a Watson threaded RMS adapter !
Yup its a 'diagnostic test slide' more for mirror twizzling, centering, focussing, that kind of thing .. but I am pretty sure that one could still pick a pair of just-seperable fine grains and measure the spacing.
Hobbyst46... thanks, I have just drawn the marks on the underside of the coverslip ! ( and mounted this onto the slide with 'Bondic' UV cure glue ... this stuff still has a refractive wave in it, but now it doesn't get in front of the objective's view )
A Diatom??? What a crazy idea ..that would be like volunteering to fall into a black/rabbit hole (in the UK) unfortunately they are a bit like cigarettes, I try not to.
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Re: Darkfield diagnostic test slide
That's the one.
I can assure you it is oil filled.
I have RMS adaptors and all sorts.
Got 3 of the DG zonal.
Also a Watson universal condenser to RMS objective adapter.
I'm in the UK, Watson did diatom test slides.
Only have one of those.
I have the end of line stock of Canada balsam dropper bottles.
There's no going back from there.
I can assure you it is oil filled.
I have RMS adaptors and all sorts.
Got 3 of the DG zonal.
Also a Watson universal condenser to RMS objective adapter.
I'm in the UK, Watson did diatom test slides.
Only have one of those.
I have the end of line stock of Canada balsam dropper bottles.
There's no going back from there.
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Re: Darkfield diagnostic test slide
standard issue resolution test objects going on 150 years now. don't try reinventing the wheel.
Re: Darkfield diagnostic test slide
I am always re-inventing the wheel, every day, in every way
Indeed, I have just come across Simon Gage's '"Modern Dark-field Microscopy" .. it's all in there (nearly) ..a good read..even a nice sounding way to size darkfield patch stops :
https://archive.org/details/jstor-32218 ... 1/mode/2up
Re. the Zonal oil DF condenser ..I managed to take mine apart (fools rush in...)
The silvered head removed from its black tube:
(I am not sure that I could have done this without MichaelG's PlusGas formula 21 ..I have been using this stuff for about a month and it is very good.....Thanks! )
On the the underside of the optical head there is a stop that unscrews out (mine just unscrewed by pressing a finger on it and turning):
Leaving, what looks to me, like a solid block of glass with a pip bored into its front:
My zonal has a round black patch on the front/top of it and this hides the pip ..maybe if your version doesn't have a black circle this is the refractive element you can see (but I cant) ?
The black patch seems to live undeneath a coverglass cemented to the block, mine is delaminating away from it a bit.
What one sees when looking down into the top of the condenser looks to be the top surface of the unscrewable stop.
I guess that oil could weep in and sit between the glass block and the stop (??) presumably these were used in a professional setting and often with a high wattage incandescent illuminator, which could heat them up quite a bit.
Indeed, I have just come across Simon Gage's '"Modern Dark-field Microscopy" .. it's all in there (nearly) ..a good read..even a nice sounding way to size darkfield patch stops :
https://archive.org/details/jstor-32218 ... 1/mode/2up
Re. the Zonal oil DF condenser ..I managed to take mine apart (fools rush in...)
The silvered head removed from its black tube:
(I am not sure that I could have done this without MichaelG's PlusGas formula 21 ..I have been using this stuff for about a month and it is very good.....Thanks! )
On the the underside of the optical head there is a stop that unscrews out (mine just unscrewed by pressing a finger on it and turning):
Leaving, what looks to me, like a solid block of glass with a pip bored into its front:
My zonal has a round black patch on the front/top of it and this hides the pip ..maybe if your version doesn't have a black circle this is the refractive element you can see (but I cant) ?
The black patch seems to live undeneath a coverglass cemented to the block, mine is delaminating away from it a bit.
What one sees when looking down into the top of the condenser looks to be the top surface of the unscrewable stop.
I guess that oil could weep in and sit between the glass block and the stop (??) presumably these were used in a professional setting and often with a high wattage incandescent illuminator, which could heat them up quite a bit.
Re: Darkfield diagnostic test slide
Thanks for sharing the dissection, Chas … very interesting
MichaelG.
MichaelG.
Too many 'projects'
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Re: Darkfield diagnostic test slide
It's oil filled.
There is a parabolic mirror also.
I have one that the oil has become discoloured,also has a slight delamination of the patch.
It's not oil that leaked in before we need to ask.
I have another 2 without any issues.
There is a parabolic mirror also.
I have one that the oil has become discoloured,also has a slight delamination of the patch.
It's not oil that leaked in before we need to ask.
I have another 2 without any issues.
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Re: Darkfield diagnostic test slide
I don't have a Watson zonal condenser. I have similar R.M.S. threaded designs from Beck and Cooke. The principle was brilliant. Make a condenser body with an R.M.S. female thread and condensers with male R.M.S. threads to fit it. Where are the BF condensers , though? I only ever see DF condensers.
Well, the reason for the R.M.S. thread is so that a matching objective to the observational one can be used as a condenser. It was a semi popular system primarily pitched at researchers. Having a DF condenser that goes into the body was a bonus. Spencer had a similar set up , offering a 1.3 N.A. achromat aplanat with R.M.S. thread as well but I never have seen a DF one from Spencer. I have used a Beck in the Spencer body though and various matching apochromat objectives as a condenser as well. It was a super system if one could have afforded it, in it's day.
Paraboloid condensers usually have the stop set in the bottom of a glass column and a 360° paraboloid ring mirror silvered onto an inverse parabolic ring polished around the periphery of the glass column near the top. The light bypasses the stop hitting the parabolic mirror , creating a band of light of sufficient diameter to be outside a certain N.A. at a minimum and up to a certain N.A. at a maximum. It then reflects through the upper section of 1.52 n glass to the immersion oil then the slide. There is only one mirror, all else is glass. Paraboloids are said to create a small amount of ca. Paraboloids are quite deep condensers compared to those below.
In spherical and cardioid designs there are two mirrors and only a small glass puck at the top into which all is embedded.The primary mirror is a central convex dome that functions as both the primary mirror and the stop. It reflects the incoming light to an either cardioid or spherical secondary mirror silvered onto the exterior of the puck much in the same way that the paraboloid mirror is silvered onto the upper section of the column in the above design. The light then passes through the top of the condenser, immersion oil, slide continuum at an angle outside the view of the objective.
The Watson zonal appears to be the latter design, yet it is stated to be paraboloid. Is that coming from a catalogue reference or is the primary mirror geometrically different to those above?
Well, the reason for the R.M.S. thread is so that a matching objective to the observational one can be used as a condenser. It was a semi popular system primarily pitched at researchers. Having a DF condenser that goes into the body was a bonus. Spencer had a similar set up , offering a 1.3 N.A. achromat aplanat with R.M.S. thread as well but I never have seen a DF one from Spencer. I have used a Beck in the Spencer body though and various matching apochromat objectives as a condenser as well. It was a super system if one could have afforded it, in it's day.
Paraboloid condensers usually have the stop set in the bottom of a glass column and a 360° paraboloid ring mirror silvered onto an inverse parabolic ring polished around the periphery of the glass column near the top. The light bypasses the stop hitting the parabolic mirror , creating a band of light of sufficient diameter to be outside a certain N.A. at a minimum and up to a certain N.A. at a maximum. It then reflects through the upper section of 1.52 n glass to the immersion oil then the slide. There is only one mirror, all else is glass. Paraboloids are said to create a small amount of ca. Paraboloids are quite deep condensers compared to those below.
In spherical and cardioid designs there are two mirrors and only a small glass puck at the top into which all is embedded.The primary mirror is a central convex dome that functions as both the primary mirror and the stop. It reflects the incoming light to an either cardioid or spherical secondary mirror silvered onto the exterior of the puck much in the same way that the paraboloid mirror is silvered onto the upper section of the column in the above design. The light then passes through the top of the condenser, immersion oil, slide continuum at an angle outside the view of the objective.
The Watson zonal appears to be the latter design, yet it is stated to be paraboloid. Is that coming from a catalogue reference or is the primary mirror geometrically different to those above?
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Re: Darkfield diagnostic test slide
Hits the dome mirror on the back of the patch and is reflected on a mirror around the edge that can be seen through the top.
The top lens has a detent to refract to the sample
The internal oil will be to maximize the refraction at the point in the centre.
The point of light is too small to be of any use below x40/.65.
Some spares in the drawer, they are universal screw fit.
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Re: Darkfield diagnostic test slide
This is a double reflecting condenser with a narrow body. Paraboloids are single reflecting condensers. It looks like and if it achieves .95 N.A. to be either Cardioid, Spherical or Bicentric. It might be a Spot Ring but they require a wider body to accomodate a secondary reflector at a more extreme angle. They are kind of a wide angle Spherical or Bicentric.
Why oil? If the oil introduces refraction then it also introduces ca and also if so, you would see a border between the oil and glass. If there is oil in there and you can't see it, then there is no refraction. The idea , from the secondary reflector upwards is to have a homogeneous state in the optical pathway all the way to the top of the slide. That's why it is oil immersion and of a consistent refractive index from the incoming glass surface to the top of the slide.
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Why oil? If the oil introduces refraction then it also introduces ca and also if so, you would see a border between the oil and glass. If there is oil in there and you can't see it, then there is no refraction. The idea , from the secondary reflector upwards is to have a homogeneous state in the optical pathway all the way to the top of the slide. That's why it is oil immersion and of a consistent refractive index from the incoming glass surface to the top of the slide.
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Re: Darkfield diagnostic test slide
I'll take a guess that the oil is about the boundary to the top glass.
As it wasn't feasible to make from a solid.
It has no air.
On the one I have with discoloured oil I got a small bubble from warming it to get the gummy aperture to let go.
Possibly originally assembled submerged in oil.
Got the bubble out by heating the right way up and keeping pressure on the top lens while it cooled.
Wouldn't recommend it with a good one.
As it wasn't feasible to make from a solid.
It has no air.
On the one I have with discoloured oil I got a small bubble from warming it to get the gummy aperture to let go.
Possibly originally assembled submerged in oil.
Got the bubble out by heating the right way up and keeping pressure on the top lens while it cooled.
Wouldn't recommend it with a good one.
Re: Darkfield diagnostic test slide
Phill Brown; Isn't it simpler to imagine that a bit of Cedarwood oil has leaked in through the top (??)
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Re: Darkfield diagnostic test slide
I can imagine that.
Light enters in a relatively straight path from air to glass.
When it passes back to air is in the objective in a relatively straight line.
It's a reflector that gives an illuminated zone 1.2 above the top lens of the condenser.
The sun would likely be the best light source for resolution but it's not always convenient.
Re: Darkfield diagnostic test slide
I am a bit puzzled you dont have them too...... most English microscope manufactures seemed to offer them.Where are the BF condensers , though? I only ever see DF condensers.
Maybe they just grew bigger? : The Watson Holoscopic condenser (a 6 element thing) that was initially available only in an RMS mount, ended up fitting into Watsons own threaded mounting (~33.5 mm ID).
Are you looking back far enough in time?
Last edited by Chas on Mon Dec 04, 2023 10:21 am, edited 1 time in total.
Re: Darkfield diagnostic test slide
Here are the Cooke Troughton & Simms condensers, RMS threaded are on the bottom row:
April 1946 prices:
M1382: £1 14s
M1383: £4 14s
M1386: £7 6s
M1391: £8 12s
April 1946 prices:
M1382: £1 14s
M1383: £4 14s
M1386: £7 6s
M1391: £8 12s
Last edited by Chas on Mon Dec 04, 2023 10:20 am, edited 2 times in total.
Re: Darkfield diagnostic test slide
And the Watson RMS mount Holoscopic condenser:
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Re: Darkfield diagnostic test slide
Not according to physics. Only the absolute perpendicular rays to the interface surface are unaffected, all others are refracted to an increasing degree relative to the angle of incidence and are split into chroma. That's why , if you can't see the oil, it then doesn't refract the rays and there would be no purpose in having it there. All other double mirror condensers with oil immersion performance have a solid glass interior, in order to minimize refraction and provide maximum and permanent reflectivity of the mirrors.Phill Brown wrote: ↑Sat Dec 02, 2023 1:31 pmI can imagine that.
Light enters in a relatively straight path from air to glass.
What kind of oil would they have used? It would have to be balsam if you can't see it's interface with the glass and as a naturally occuring oil, it would solidify and or degrade over time.