Reflected image -> astigmatism

> *****
> 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.
> *****
>
> Hi everyone,
>
> A couple years ago there was a post on this forum about significant
> astigmatism appearing in the reflected path of a custom-built, two camera
> TIRF setup. (http://confocal-microscopy-list.588098.n2.nabble.com/Reflec
> ted-image-gt-astigmatism-td7584402.html) The original poster had placed a
> dichroic before a pair of matched tube lenses to split the two color
> channels onto two separate cameras. The general consensus was that you
> could "buy your way out of the problem" by buying a thick, ultraflat
> dichroic.
>
> I am trying a similar approach on a setup in our lab but, due to space
> constraints that are not easily overcome, have tried first placing the
> channel-splitting dichroic in the image space after the final tube lens
> instead of in the infinity space between the objective and tube lens. Even
> with a 3 mm thick ultraflat dichroic, I see moderately bad astigmatism in
> the reflected channel. I have ruled out other possible sources of the
> astigmatism, like an additional dichroic for the excitation light and
> filters that already lie in the infinity space between the objective and
> tube lens.
>
> My question is: is it even worth trying to eliminate the astigmatism in
> the reflected path of a split-channel setup if the dichroic does not lie in
> the infinity space? Or is it pretty much always a bad idea to put the
> splitter dichroic in the image space?
>
> My current suspicion is that the tolerances in the alignment have to be
> very, very tight to avoid astigmatism with the splitter in the image space.
>
> Thanks for your feedback.
>
> Kyle
>
> --
> Kyle M. Douglass, PhD
> Post-doctoral researcher
> The Laboratory of Experimental Biophysics
> EPFL, Lausanne, Switzerland
> http://kmdouglass.github.io
> http://leb.epfl.ch
>

> *****
> 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.
> *****
>
> COMMERCIAL RESPONSE
>
> Hi Kyle,
>
> We've found that it's most often the mounting of the dichroic itself that
> causes the most distortion in an image reflected off of a dichroic.  You
> could theoretically have an "ideal" dichroic with no curvature, but once it
> is affixed, it will be torqued out of flatness to some extent unless you
> can completely avoid any mounting stress.
>
> If held by means that apply pressure on top or bottom of the large surface,
> you will get various forms of non-spherical astigmatism.  Even light
> pressure on the sides of the dichroic will have some effect.
>
> As Zdenek suggested, thicker dichroics are stiffer and will better resist
> deformation.
>
> If possible, try using something like silicone RTV applied very sparingly
> in small beads around the outside edges of the dichroic, but never under
> it.  This serves to prevent the dichroic from moving around without
> applying stress.  If the "holder" is removable, then you can swap out these
> mounted dichroics and not fiddle with the dichroic itself once affixed.
>
> Jeff
>
>
> *Jeff Carmichael*
>
> *Technical and Product Marketing Manager*
>
> *[hidden email] <[hidden email]>*Chroma Technology Corp.
>
> *an employee owned company*
> *10 Imtec Lane*
> *Bellows Falls, VT  05301*
> *802-428-2528 Office*
> *802-428-2528 Fax**800-824-7662 Toll Free*
>
> On Mon, Feb 13, 2017 at 9:27 AM, Kyle Douglass <[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.
> > *****
> >
> > Hi everyone,
> >
> > A couple years ago there was a post on this forum about significant
> > astigmatism appearing in the reflected path of a custom-built, two camera
> > TIRF setup. (http://confocal-microscopy-list.588098.n2.nabble.com/Reflec
> > ted-image-gt-astigmatism-td7584402.html) The original poster had placed
> a
> > dichroic before a pair of matched tube lenses to split the two color
> > channels onto two separate cameras. The general consensus was that you
> > could "buy your way out of the problem" by buying a thick, ultraflat
> > dichroic.
> >
> > I am trying a similar approach on a setup in our lab but, due to space
> > constraints that are not easily overcome, have tried first placing the
> > channel-splitting dichroic in the image space after the final tube lens
> > instead of in the infinity space between the objective and tube lens.
> Even
> > with a 3 mm thick ultraflat dichroic, I see moderately bad astigmatism in
> > the reflected channel. I have ruled out other possible sources of the
> > astigmatism, like an additional dichroic for the excitation light and
> > filters that already lie in the infinity space between the objective and
> > tube lens.
> >
> > My question is: is it even worth trying to eliminate the astigmatism in
> > the reflected path of a split-channel setup if the dichroic does not lie
> in
> > the infinity space? Or is it pretty much always a bad idea to put the
> > splitter dichroic in the image space?
> >
> > My current suspicion is that the tolerances in the alignment have to be
> > very, very tight to avoid astigmatism with the splitter in the image
> space.
> >
> > Thanks for your feedback.
> >
> > Kyle
> >
> > --
> > Kyle M. Douglass, PhD
> > Post-doctoral researcher
> > The Laboratory of Experimental Biophysics
> > EPFL, Lausanne, Switzerland
> > http://kmdouglass.github.io
> > http://leb.epfl.ch
> >
>

> *****
> 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.
> *****
>
> Kyle,
>
> The other poster was me.  I ultimately fixed the issue to my satisfaction
> by carefully mounting the dichroic to the cube with double-sided tape
> rather than the provided clamp.  That method was stress-free enough to not
> induce any undue curvature in the dichroic, at least qualitatively as no
> astigmatism immediately obvious in the reflected image.  This was even with
> a relatively thin (1.1 mm) substrate for the mirror. This solution is
> similar to what Jeff suggested using silicone adhesive instead of tape.
>
> Another fun part of that system is that the camera fans would induce quite
> a large vibration and only along one axis.  The vibration period was 10-20
> ms, which meant any longer exposures would yield a PSF elongated on that
> axis.  Astigmatism would vary along the focal axis and this didn't, but it
> still gave an asymmetric PSF at the focal plane.
>
> Thanks,
> Rusty
>
> On Mon, Feb 13, 2017 at 7:49 AM, Jeffrey Carmichael <
> [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.
> > *****
> >
> > COMMERCIAL RESPONSE
> >
> > Hi Kyle,
> >
> > We've found that it's most often the mounting of the dichroic itself that
> > causes the most distortion in an image reflected off of a dichroic.  You
> > could theoretically have an "ideal" dichroic with no curvature, but once
> it
> > is affixed, it will be torqued out of flatness to some extent unless you
> > can completely avoid any mounting stress.
> >
> > If held by means that apply pressure on top or bottom of the large
> surface,
> > you will get various forms of non-spherical astigmatism.  Even light
> > pressure on the sides of the dichroic will have some effect.
> >
> > As Zdenek suggested, thicker dichroics are stiffer and will better resist
> > deformation.
> >
> > If possible, try using something like silicone RTV applied very sparingly
> > in small beads around the outside edges of the dichroic, but never under
> > it.  This serves to prevent the dichroic from moving around without
> > applying stress.  If the "holder" is removable, then you can swap out
> these
> > mounted dichroics and not fiddle with the dichroic itself once affixed.
> >
> > Jeff
> >
> >
> > *Jeff Carmichael*
> >
> > *Technical and Product Marketing Manager*
> >
> > *[hidden email] <[hidden email]>*Chroma Technology Corp.
> >
> > *an employee owned company*
> > *10 Imtec Lane*
> > *Bellows Falls, VT  05301*
> > *802-428-2528 Office*
> > *802-428-2528 Fax**800-824-7662 Toll Free*
> >
> > On Mon, Feb 13, 2017 at 9:27 AM, Kyle Douglass <[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.
> > > *****
> > >
> > > Hi everyone,
> > >
> > > A couple years ago there was a post on this forum about significant
> > > astigmatism appearing in the reflected path of a custom-built, two
> camera
> > > TIRF setup. (http://confocal-microscopy-list.588098.n2.nabble.com/
> Reflec
> > > ted-image-gt-astigmatism-td7584402.html) The original poster had
> placed
> > a
> > > dichroic before a pair of matched tube lenses to split the two color
> > > channels onto two separate cameras. The general consensus was that you
> > > could "buy your way out of the problem" by buying a thick, ultraflat
> > > dichroic.
> > >
> > > I am trying a similar approach on a setup in our lab but, due to space
> > > constraints that are not easily overcome, have tried first placing the
> > > channel-splitting dichroic in the image space after the final tube lens
> > > instead of in the infinity space between the objective and tube lens.
> > Even
> > > with a 3 mm thick ultraflat dichroic, I see moderately bad astigmatism
> in
> > > the reflected channel. I have ruled out other possible sources of the
> > > astigmatism, like an additional dichroic for the excitation light and
> > > filters that already lie in the infinity space between the objective
> and
> > > tube lens.
> > >
> > > My question is: is it even worth trying to eliminate the astigmatism in
> > > the reflected path of a split-channel setup if the dichroic does not
> lie
> > in
> > > the infinity space? Or is it pretty much always a bad idea to put the
> > > splitter dichroic in the image space?
> > >
> > > My current suspicion is that the tolerances in the alignment have to be
> > > very, very tight to avoid astigmatism with the splitter in the image
> > space.
> > >
> > > Thanks for your feedback.
> > >
> > > Kyle
> > >
> > > --
> > > Kyle M. Douglass, PhD
> > > Post-doctoral researcher
> > > The Laboratory of Experimental Biophysics
> > > EPFL, Lausanne, Switzerland
> > > http://kmdouglass.github.io
> > > http://leb.epfl.ch
> > >
> >
>

> *****
> 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.
> *****
>
>   I'm worried that your transmission path will also have astigmatism. Even a
> perfectly flat piece of glass yields astigmatism in transmission if it's
> tilted in a non-infinity space, right?
>
> (Warning: lousy advice below)
>   I've encountered this myself, and "fixed" it with a second piece of glass,
> the same thickness and material as the first, tilted equally about an
> orthogonal axis, to introduce "equal and opposite" astigmatism. This was a
> hack, but it was good enough for my needs at the time. Depending on your
> needs, perhaps you could use tilted flat glass as a tunable astigmatism
> compensation.
>
> On Mon, Feb 13, 2017 at 8:45 AM, Rusty Nicovich <[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.
>> *****
>>
>> Kyle,
>>
>> The other poster was me.  I ultimately fixed the issue to my satisfaction
>> by carefully mounting the dichroic to the cube with double-sided tape
>> rather than the provided clamp.  That method was stress-free enough to not
>> induce any undue curvature in the dichroic, at least qualitatively as no
>> astigmatism immediately obvious in the reflected image.  This was even with
>> a relatively thin (1.1 mm) substrate for the mirror. This solution is
>> similar to what Jeff suggested using silicone adhesive instead of tape.
>>
>> Another fun part of that system is that the camera fans would induce quite
>> a large vibration and only along one axis.  The vibration period was 10-20
>> ms, which meant any longer exposures would yield a PSF elongated on that
>> axis.  Astigmatism would vary along the focal axis and this didn't, but it
>> still gave an asymmetric PSF at the focal plane.
>>
>> Thanks,
>> Rusty
>>
>> On Mon, Feb 13, 2017 at 7:49 AM, Jeffrey Carmichael <
>> [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.
>>> *****
>>>
>>> COMMERCIAL RESPONSE
>>>
>>> Hi Kyle,
>>>
>>> We've found that it's most often the mounting of the dichroic itself that
>>> causes the most distortion in an image reflected off of a dichroic.  You
>>> could theoretically have an "ideal" dichroic with no curvature, but once
>> it
>>> is affixed, it will be torqued out of flatness to some extent unless you
>>> can completely avoid any mounting stress.
>>>
>>> If held by means that apply pressure on top or bottom of the large
>> surface,
>>> you will get various forms of non-spherical astigmatism.  Even light
>>> pressure on the sides of the dichroic will have some effect.
>>>
>>> As Zdenek suggested, thicker dichroics are stiffer and will better resist
>>> deformation.
>>>
>>> If possible, try using something like silicone RTV applied very sparingly
>>> in small beads around the outside edges of the dichroic, but never under
>>> it.  This serves to prevent the dichroic from moving around without
>>> applying stress.  If the "holder" is removable, then you can swap out
>> these
>>> mounted dichroics and not fiddle with the dichroic itself once affixed.
>>>
>>> Jeff
>>>
>>>
>>> *Jeff Carmichael*
>>>
>>> *Technical and Product Marketing Manager*
>>>
>>> *[hidden email] <[hidden email]>*Chroma Technology Corp.
>>>
>>> *an employee owned company*
>>> *10 Imtec Lane*
>>> *Bellows Falls, VT  05301*
>>> *802-428-2528 Office*
>>> *802-428-2528 Fax**800-824-7662 Toll Free*
>>>
>>> On Mon, Feb 13, 2017 at 9:27 AM, Kyle Douglass <[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.
>>>> *****
>>>>
>>>> Hi everyone,
>>>>
>>>> A couple years ago there was a post on this forum about significant
>>>> astigmatism appearing in the reflected path of a custom-built, two
>> camera
>>>> TIRF setup. (http://confocal-microscopy-list.588098.n2.nabble.com/
>> Reflec
>>>> ted-image-gt-astigmatism-td7584402.html) The original poster had
>> placed
>>> a
>>>> dichroic before a pair of matched tube lenses to split the two color
>>>> channels onto two separate cameras. The general consensus was that you
>>>> could "buy your way out of the problem" by buying a thick, ultraflat
>>>> dichroic.
>>>>
>>>> I am trying a similar approach on a setup in our lab but, due to space
>>>> constraints that are not easily overcome, have tried first placing the
>>>> channel-splitting dichroic in the image space after the final tube lens
>>>> instead of in the infinity space between the objective and tube lens.
>>> Even
>>>> with a 3 mm thick ultraflat dichroic, I see moderately bad astigmatism
>> in
>>>> the reflected channel. I have ruled out other possible sources of the
>>>> astigmatism, like an additional dichroic for the excitation light and
>>>> filters that already lie in the infinity space between the objective
>> and
>>>> tube lens.
>>>>
>>>> My question is: is it even worth trying to eliminate the astigmatism in
>>>> the reflected path of a split-channel setup if the dichroic does not
>> lie
>>> in
>>>> the infinity space? Or is it pretty much always a bad idea to put the
>>>> splitter dichroic in the image space?
>>>>
>>>> My current suspicion is that the tolerances in the alignment have to be
>>>> very, very tight to avoid astigmatism with the splitter in the image
>>> space.
>>>> Thanks for your feedback.
>>>>
>>>> Kyle
>>>>
>>>> --
>>>> Kyle M. Douglass, PhD
>>>> Post-doctoral researcher
>>>> The Laboratory of Experimental Biophysics
>>>> EPFL, Lausanne, Switzerland
>>>> http://kmdouglass.github.io
>>>> http://leb.epfl.ch
>>>>

> hack, but it was good enough for my needs at the time. Depending on your
> needs, perhaps you could use tilted flat glass as a tunable astigmatism
> compensation.
>
> On Mon, Feb 13, 2017 at 8:45 AM, Rusty Nicovich <[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.

>> still gave an asymmetric PSF at the focal plane.
>>
>> Thanks,
>> Rusty
>>
>> On Mon, Feb 13, 2017 at 7:49 AM, Jeffrey Carmichael <
>> [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.
>>> *****
>>>
>>> COMMERCIAL RESPONSE
>>>
>>> Hi Kyle,
>>>
>>> We've found that it's most often the mounting of the dichroic itself

>>> it. This serves to prevent the dichroic from moving around without
>>> applying stress. If the "holder" is removable, then you can swap out
>> these
>>> mounted dichroics and not fiddle with the dichroic itself once affixed.
>>>
>>> Jeff
>>>
>>>
>>> *Jeff Carmichael*
>>>
>>> *Technical and Product Marketing Manager*
>>>
>>> *[hidden email] <[hidden email]>*Chroma Technology Corp.

>>>
>>> *an employee owned company*
>>> *10 Imtec Lane*
>>> *Bellows Falls, VT 05301*
>>> *802-428-2528 Office*
>>> *802-428-2528 Fax**800-824-7662 Toll Free*
>>>
>>> On Mon, Feb 13, 2017 at 9:27 AM, Kyle Douglass <[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.
>>>> *****
>>>>
>>>> Hi everyone,
>>>>
>>>> A couple years ago there was a post on this forum about significant
>>>> astigmatism appearing in the reflected path of a custom-built, two
>> camera
>>>> TIRF setup. (http://confocal-microscopy-list.588098.n2.nabble.com/ 
>> Reflec
>>>> ted-image-gt-astigmatism-td7584402.html) The original poster had
>> placed
>>> a
>>>> dichroic before a pair of matched tube lenses to split the two color
>>>> channels onto two separate cameras. The general consensus was that you
>>>> could "buy your way out of the problem" by buying a thick, ultraflat
>>>> dichroic.
>>>>
>>>> I am trying a similar approach on a setup in our lab but, due to space
>>>> constraints that are not easily overcome, have tried first placing the
>>>> channel-splitting dichroic in the image space after the final tube lens

>>>> instead of in the infinity space between the objective and tube lens.
>>> Even
>>>> with a 3 mm thick ultraflat dichroic, I see moderately bad astigmatism
>> in
>>>> the reflected channel. I have ruled out other possible sources of the
>>>> astigmatism, like an additional dichroic for the excitation light and
>>>> filters that already lie in the infinity space between the objective
>> and
>>>> tube lens.
>>>>
>>>> My question is: is it even worth trying to eliminate the astigmatism in

>>>> very, very tight to avoid astigmatism with the splitter in the image
>>> space.
>>>> Thanks for your feedback.
>>>>
>>>> Kyle
>>>>
>>>> --
>>>> Kyle M. Douglass, PhD
>>>> Post-doctoral researcher
>>>> The Laboratory of Experimental Biophysics
>>>> EPFL, Lausanne, Switzerland
>>>> http://kmdouglass.github.io 
>>>> http://leb.epfl.ch 
>>>>

> *****
> 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.
> *****
>
>   I'm worried that your transmission path will also have astigmatism. Even a
> perfectly flat piece of glass yields astigmatism in transmission if it's
> tilted in a non-infinity space, right?
>
> (Warning: lousy advice below)
>   I've encountered this myself, and "fixed" it with a second piece of glass,
> the same thickness and material as the first, tilted equally about an
> orthogonal axis, to introduce "equal and opposite" astigmatism. This was a
> hack, but it was good enough for my needs at the time. Depending on your
> needs, perhaps you could use tilted flat glass as a tunable astigmatism
> compensation.
>
> On Mon, Feb 13, 2017 at 8:45 AM, Rusty Nicovich <[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.
>> *****
>>
>> Kyle,
>>
>> The other poster was me.  I ultimately fixed the issue to my satisfaction
>> by carefully mounting the dichroic to the cube with double-sided tape
>> rather than the provided clamp.  That method was stress-free enough to not
>> induce any undue curvature in the dichroic, at least qualitatively as no
>> astigmatism immediately obvious in the reflected image.  This was even with
>> a relatively thin (1.1 mm) substrate for the mirror. This solution is
>> similar to what Jeff suggested using silicone adhesive instead of tape.
>>
>> Another fun part of that system is that the camera fans would induce quite
>> a large vibration and only along one axis.  The vibration period was 10-20
>> ms, which meant any longer exposures would yield a PSF elongated on that
>> axis.  Astigmatism would vary along the focal axis and this didn't, but it
>> still gave an asymmetric PSF at the focal plane.
>>
>> Thanks,
>> Rusty
>>
>> On Mon, Feb 13, 2017 at 7:49 AM, Jeffrey Carmichael <
>> [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.
>>> *****
>>>
>>> COMMERCIAL RESPONSE
>>>
>>> Hi Kyle,
>>>
>>> We've found that it's most often the mounting of the dichroic itself that
>>> causes the most distortion in an image reflected off of a dichroic.  You
>>> could theoretically have an "ideal" dichroic with no curvature, but once
>> it
>>> is affixed, it will be torqued out of flatness to some extent unless you
>>> can completely avoid any mounting stress.
>>>
>>> If held by means that apply pressure on top or bottom of the large
>> surface,
>>> you will get various forms of non-spherical astigmatism.  Even light
>>> pressure on the sides of the dichroic will have some effect.
>>>
>>> As Zdenek suggested, thicker dichroics are stiffer and will better resist
>>> deformation.
>>>
>>> If possible, try using something like silicone RTV applied very sparingly
>>> in small beads around the outside edges of the dichroic, but never under
>>> it.  This serves to prevent the dichroic from moving around without
>>> applying stress.  If the "holder" is removable, then you can swap out
>> these
>>> mounted dichroics and not fiddle with the dichroic itself once affixed.
>>>
>>> Jeff
>>>
>>>
>>> *Jeff Carmichael*
>>>
>>> *Technical and Product Marketing Manager*
>>>
>>> *[hidden email] <[hidden email]>*Chroma Technology Corp.
>>>
>>> *an employee owned company*
>>> *10 Imtec Lane*
>>> *Bellows Falls, VT  05301*
>>> *802-428-2528 Office*
>>> *802-428-2528 Fax**800-824-7662 Toll Free*
>>>
>>> On Mon, Feb 13, 2017 at 9:27 AM, Kyle Douglass <[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.
>>>> *****
>>>>
>>>> Hi everyone,
>>>>
>>>> A couple years ago there was a post on this forum about significant
>>>> astigmatism appearing in the reflected path of a custom-built, two
>> camera
>>>> TIRF setup. (http://confocal-microscopy-list.588098.n2.nabble.com/
>> Reflec
>>>> ted-image-gt-astigmatism-td7584402.html) The original poster had
>> placed
>>> a
>>>> dichroic before a pair of matched tube lenses to split the two color
>>>> channels onto two separate cameras. The general consensus was that you
>>>> could "buy your way out of the problem" by buying a thick, ultraflat
>>>> dichroic.
>>>>
>>>> I am trying a similar approach on a setup in our lab but, due to space
>>>> constraints that are not easily overcome, have tried first placing the
>>>> channel-splitting dichroic in the image space after the final tube lens
>>>> instead of in the infinity space between the objective and tube lens.
>>> Even
>>>> with a 3 mm thick ultraflat dichroic, I see moderately bad astigmatism
>> in
>>>> the reflected channel. I have ruled out other possible sources of the
>>>> astigmatism, like an additional dichroic for the excitation light and
>>>> filters that already lie in the infinity space between the objective
>> and
>>>> tube lens.
>>>>
>>>> My question is: is it even worth trying to eliminate the astigmatism in
>>>> the reflected path of a split-channel setup if the dichroic does not
>> lie
>>> in
>>>> the infinity space? Or is it pretty much always a bad idea to put the
>>>> splitter dichroic in the image space?
>>>>
>>>> My current suspicion is that the tolerances in the alignment have to be
>>>> very, very tight to avoid astigmatism with the splitter in the image
>>> space.
>>>> Thanks for your feedback.
>>>>
>>>> Kyle
>>>>
>>>> --
>>>> Kyle M. Douglass, PhD
>>>> Post-doctoral researcher
>>>> The Laboratory of Experimental Biophysics
>>>> EPFL, Lausanne, Switzerland
>>>> http://kmdouglass.github.io
>>>> http://leb.epfl.ch
>>>>

> *****
> 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.
> *****
>
> COMMERCIAL RESPONSE
>
> Our President and Managing Director have prepared the following response:
>
> Hi Kyle
>
> Based on our experience of designing image splitters and multicamera
> adapters, we can strongly underline the points made by Jeff Carmichael.  As
> he says, to avoid any aberrations in the reflected channel, the dichroic
> must be “softly” mounted against a truly flat surface.  Curvature in only
> one direction will indeed give astigmatism, but more complex curvatures,
> especially if there is a bit of twist as well, can give significant image
> distortion too – think fairground mirrors!  Even if the images are more or
> less in focus over the field, this will clearly show up when (as is so
> often required) the transmitted and reflected images are superimposed for
> analysis.  As camera resolution has improved, such effects have become ever
> more obvious, but even with megapixel cameras it should be possible to
> overlay the images to within a just a pixel or two over the field.  However
> that does require similar detail to the design of the rest of the optical
> system, which should be as symmetrical as possible between the transmitted
> and reflected pathways, as it is in our image splitters as well as our
> camera adapters.
>
> The flatness issue applies whether the reflection occurs in an infinity
> space or an imaging space, but there is another problem if the dichroic is
> in imaging space, namely that of astigmatism in the transmitted channel.
> This is because the dichroic is at an angle (typically 45 degrees of
> course) with respect to the light path. Optical modelling shows the
> following effects, some of which may be counterintuitive.  As might be
> expected though, the astigmatism, which is uniform over the field,
> increases with the refractive index and thickness of the dichroic, as well
> as with its angle.  (By the way, that's probably why the dichroics used in
> microscopes to introduce an epi-illumination beam are traditionally “thin”,
> typically just a millimetre, as in the older (noninfinity) microscopes the
> dichroic was in the imaging space from the objective).
>
> We wonder if this effect might be relevant to Kyle's problem, especially
> if the dichroic is relatively thick.  Relating to that, we have an
> observation and a suggestion.  The optical modelling shows that the
> astigmatism is independent of the dichroic's position within the imaging
> space, so moving it closer to either the camera or the focussing lens won't
> help.
>
> We are also pleased from our modelling to confirm that Andrew York's
> solution to use a second piece of glass mounted at an orthogonal angle is a
> correct one rather than just a “hack”, even though it may “sound” wrong.
> The astigmatism arises because the effective thickness of the glass is
> different in the x and y directions because of it being at an angle.  The
> sign of the angle doesn't matter, so adding another piece of glass angled
> oppositely would make the problem worse rather than better.  But it you
> rotate by 90 degrees, the directional differences now cancel, and you're
> just left with a small and probably negligible (according to our modelling
> at least!) chromatic effect from the dispersion of the glass.
>
> Dr MV Thomas & Jez Graham
> Cairn Research Ltd
> Graveney Road
> Faversham
> Kent, ME13 8UP
> UK
> Cairn Research is a European scientific instruments manufacturer based in
> Kent, UK.
> www.cairn-research.co.uk
>
>
>
>
>
> On 2/13/2017 9:34 PM, Andrew York 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.
>> *****
>>
>>   I'm worried that your transmission path will also have astigmatism.
>> Even a
>> perfectly flat piece of glass yields astigmatism in transmission if it's
>> tilted in a non-infinity space, right?
>>
>> (Warning: lousy advice below)
>>   I've encountered this myself, and "fixed" it with a second piece of
>> glass,
>> the same thickness and material as the first, tilted equally about an
>> orthogonal axis, to introduce "equal and opposite" astigmatism. This was a
>> hack, but it was good enough for my needs at the time. Depending on your
>> needs, perhaps you could use tilted flat glass as a tunable astigmatism
>> compensation.
>>
>> On Mon, Feb 13, 2017 at 8:45 AM, Rusty Nicovich <[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.
>>> *****
>>>
>>> Kyle,
>>>
>>> The other poster was me.  I ultimately fixed the issue to my satisfaction
>>> by carefully mounting the dichroic to the cube with double-sided tape
>>> rather than the provided clamp.  That method was stress-free enough to
>>> not
>>> induce any undue curvature in the dichroic, at least qualitatively as no
>>> astigmatism immediately obvious in the reflected image.  This was even
>>> with
>>> a relatively thin (1.1 mm) substrate for the mirror. This solution is
>>> similar to what Jeff suggested using silicone adhesive instead of tape.
>>>
>>> Another fun part of that system is that the camera fans would induce
>>> quite
>>> a large vibration and only along one axis.  The vibration period was
>>> 10-20
>>> ms, which meant any longer exposures would yield a PSF elongated on that
>>> axis.  Astigmatism would vary along the focal axis and this didn't, but
>>> it
>>> still gave an asymmetric PSF at the focal plane.
>>>
>>> Thanks,
>>> Rusty
>>>
>>> On Mon, Feb 13, 2017 at 7:49 AM, Jeffrey Carmichael <
>>> [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.
>>>
>>>> *****
>>>>
>>>> COMMERCIAL RESPONSE
>>>>
>>>> Hi Kyle,
>>>>
>>>> We've found that it's most often the mounting of the dichroic itself
>>>> that
>>>> causes the most distortion in an image reflected off of a dichroic.  You
>>>> could theoretically have an "ideal" dichroic with no curvature, but once
>>>>
>>> it
>>>
>>>> is affixed, it will be torqued out of flatness to some extent unless you
>>>> can completely avoid any mounting stress.
>>>>
>>>> If held by means that apply pressure on top or bottom of the large
>>>>
>>> surface,
>>>
>>>> you will get various forms of non-spherical astigmatism.  Even light
>>>> pressure on the sides of the dichroic will have some effect.
>>>>
>>>> As Zdenek suggested, thicker dichroics are stiffer and will better
>>>> resist
>>>> deformation.
>>>>
>>>> If possible, try using something like silicone RTV applied very
>>>> sparingly
>>>> in small beads around the outside edges of the dichroic, but never under
>>>> it.  This serves to prevent the dichroic from moving around without
>>>> applying stress.  If the "holder" is removable, then you can swap out
>>>>
>>> these
>>>
>>>> mounted dichroics and not fiddle with the dichroic itself once affixed.
>>>>
>>>> Jeff
>>>>
>>>>
>>>> *Jeff Carmichael*
>>>>
>>>> *Technical and Product Marketing Manager*
>>>>
>>>> *[hidden email] <[hidden email]>*Chroma Technology
>>>> Corp.
>>>>
>>>> *an employee owned company*
>>>> *10 Imtec Lane*
>>>> *Bellows Falls, VT  05301*
>>>> *802-428-2528 Office*
>>>> *802-428-2528 Fax**800-824-7662 Toll Free*
>>>>
>>>> On Mon, Feb 13, 2017 at 9:27 AM, Kyle Douglass <[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.
>>>>
>>>>> *****
>>>>>
>>>>> Hi everyone,
>>>>>
>>>>> A couple years ago there was a post on this forum about significant
>>>>> astigmatism appearing in the reflected path of a custom-built, two
>>>>>
>>>> camera
>>>
>>>> TIRF setup. (http://confocal-microscopy-list.588098.n2.nabble.com/
>>>>>
>>>> Reflec
>>>
>>>> ted-image-gt-astigmatism-td7584402.html) The original poster had
>>>>>
>>>> placed
>>>
>>>> a
>>>>
>>>>> dichroic before a pair of matched tube lenses to split the two color
>>>>> channels onto two separate cameras. The general consensus was that you
>>>>> could "buy your way out of the problem" by buying a thick, ultraflat
>>>>> dichroic.
>>>>>
>>>>> I am trying a similar approach on a setup in our lab but, due to space
>>>>> constraints that are not easily overcome, have tried first placing the
>>>>> channel-splitting dichroic in the image space after the final tube lens
>>>>> instead of in the infinity space between the objective and tube lens.
>>>>>
>>>> Even
>>>>
>>>>> with a 3 mm thick ultraflat dichroic, I see moderately bad astigmatism
>>>>>
>>>> in
>>>
>>>> the reflected channel. I have ruled out other possible sources of the
>>>>> astigmatism, like an additional dichroic for the excitation light and
>>>>> filters that already lie in the infinity space between the objective
>>>>>
>>>> and
>>>
>>>> tube lens.
>>>>>
>>>>> My question is: is it even worth trying to eliminate the astigmatism in
>>>>> the reflected path of a split-channel setup if the dichroic does not
>>>>>
>>>> lie
>>>
>>>> in
>>>>
>>>>> the infinity space? Or is it pretty much always a bad idea to put the
>>>>> splitter dichroic in the image space?
>>>>>
>>>>> My current suspicion is that the tolerances in the alignment have to be
>>>>> very, very tight to avoid astigmatism with the splitter in the image
>>>>>
>>>> space.
>>>>
>>>>> Thanks for your feedback.
>>>>>
>>>>> Kyle
>>>>>
>>>>> --
>>>>> Kyle M. Douglass, PhD
>>>>> Post-doctoral researcher
>>>>> The Laboratory of Experimental Biophysics
>>>>> EPFL, Lausanne, Switzerland
>>>>> http://kmdouglass.github.io
>>>>> http://leb.epfl.ch
>>>>>
>>>>>
> --
>
> *James Kerin
> *
>
> *Marketing Director*
> Cairn Research Ltd
> Graveney Road
> Faversham
> Kent, ME13 8UP
> UK
>
> Direct: + 44 (0)1795 594507
> Fax: + 44 (0) 1795 594510
>

> *****
> 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.
> *****
>
> Hi Kyle,
>
> Our friends and colleagues have done an excellent job of covering this
> topic, and I very much agree with the contents and summaries provided. I
> would like to add one further minor point which may or may not be
> applicable depending on your setup:
>
> WFE of any type (including astigmatism) is additive and you mentioned
> upstream dichroics and filters (and mirrors?). If you're unlucky then it
> may be that these previous optics have already put you 'on the edge' of an
> acceptable/perceptible astigmatism and that the last guy is simply pushing
> you over. If you can't fix it with careful mounting of the last guy then it
> may be worth giving the upstream optics an equal measure of care
> (especially if you have reflectors). Without a TWE measurement of the
> system optic by optic you cannot tell what's going on, so just be
> suspicious of everyone!
>
> Regards,
>
> Alfred Millett-Sikking.
>
>
> On 14 February 2017 at 06:35, James Kerin <[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.
> > *****
> >
> > COMMERCIAL RESPONSE
> >
> > Our President and Managing Director have prepared the following response:
> >
> > Hi Kyle
> >
> > Based on our experience of designing image splitters and multicamera
> > adapters, we can strongly underline the points made by Jeff Carmichael.
> As
> > he says, to avoid any aberrations in the reflected channel, the dichroic
> > must be “softly” mounted against a truly flat surface.  Curvature in only
> > one direction will indeed give astigmatism, but more complex curvatures,
> > especially if there is a bit of twist as well, can give significant image
> > distortion too – think fairground mirrors!  Even if the images are more
> or
> > less in focus over the field, this will clearly show up when (as is so
> > often required) the transmitted and reflected images are superimposed for
> > analysis.  As camera resolution has improved, such effects have become
> ever
> > more obvious, but even with megapixel cameras it should be possible to
> > overlay the images to within a just a pixel or two over the field.
> However
> > that does require similar detail to the design of the rest of the optical
> > system, which should be as symmetrical as possible between the
> transmitted
> > and reflected pathways, as it is in our image splitters as well as our
> > camera adapters.
> >
> > The flatness issue applies whether the reflection occurs in an infinity
> > space or an imaging space, but there is another problem if the dichroic
> is
> > in imaging space, namely that of astigmatism in the transmitted channel.
> > This is because the dichroic is at an angle (typically 45 degrees of
> > course) with respect to the light path. Optical modelling shows the
> > following effects, some of which may be counterintuitive.  As might be
> > expected though, the astigmatism, which is uniform over the field,
> > increases with the refractive index and thickness of the dichroic, as
> well
> > as with its angle.  (By the way, that's probably why the dichroics used
> in
> > microscopes to introduce an epi-illumination beam are traditionally
> “thin”,
> > typically just a millimetre, as in the older (noninfinity) microscopes
> the
> > dichroic was in the imaging space from the objective).
> >
> > We wonder if this effect might be relevant to Kyle's problem, especially
> > if the dichroic is relatively thick.  Relating to that, we have an
> > observation and a suggestion.  The optical modelling shows that the
> > astigmatism is independent of the dichroic's position within the imaging
> > space, so moving it closer to either the camera or the focussing lens
> won't
> > help.
> >
> > We are also pleased from our modelling to confirm that Andrew York's
> > solution to use a second piece of glass mounted at an orthogonal angle
> is a
> > correct one rather than just a “hack”, even though it may “sound” wrong.
> > The astigmatism arises because the effective thickness of the glass is
> > different in the x and y directions because of it being at an angle.  The
> > sign of the angle doesn't matter, so adding another piece of glass angled
> > oppositely would make the problem worse rather than better.  But it you
> > rotate by 90 degrees, the directional differences now cancel, and you're
> > just left with a small and probably negligible (according to our
> modelling
> > at least!) chromatic effect from the dispersion of the glass.
> >
> > Dr MV Thomas & Jez Graham
> > Cairn Research Ltd
> > Graveney Road
> > Faversham
> > Kent, ME13 8UP
> > UK
> > Cairn Research is a European scientific instruments manufacturer based in
> > Kent, UK.
> > www.cairn-research.co.uk
> >
> >
> >
> >
> >
> > On 2/13/2017 9:34 PM, Andrew York 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.
> >> *****
> >>
> >>   I'm worried that your transmission path will also have astigmatism.
> >> Even a
> >> perfectly flat piece of glass yields astigmatism in transmission if it's
> >> tilted in a non-infinity space, right?
> >>
> >> (Warning: lousy advice below)
> >>   I've encountered this myself, and "fixed" it with a second piece of
> >> glass,
> >> the same thickness and material as the first, tilted equally about an
> >> orthogonal axis, to introduce "equal and opposite" astigmatism. This
> was a
> >> hack, but it was good enough for my needs at the time. Depending on your
> >> needs, perhaps you could use tilted flat glass as a tunable astigmatism
> >> compensation.
> >>
> >> On Mon, Feb 13, 2017 at 8:45 AM, Rusty Nicovich <
> [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.
> >>> *****
> >>>
> >>> Kyle,
> >>>
> >>> The other poster was me.  I ultimately fixed the issue to my
> satisfaction
> >>> by carefully mounting the dichroic to the cube with double-sided tape
> >>> rather than the provided clamp.  That method was stress-free enough to
> >>> not
> >>> induce any undue curvature in the dichroic, at least qualitatively as
> no
> >>> astigmatism immediately obvious in the reflected image.  This was even
> >>> with
> >>> a relatively thin (1.1 mm) substrate for the mirror. This solution is
> >>> similar to what Jeff suggested using silicone adhesive instead of tape.
> >>>
> >>> Another fun part of that system is that the camera fans would induce
> >>> quite
> >>> a large vibration and only along one axis.  The vibration period was
> >>> 10-20
> >>> ms, which meant any longer exposures would yield a PSF elongated on
> that
> >>> axis.  Astigmatism would vary along the focal axis and this didn't, but
> >>> it
> >>> still gave an asymmetric PSF at the focal plane.
> >>>
> >>> Thanks,
> >>> Rusty
> >>>
> >>> On Mon, Feb 13, 2017 at 7:49 AM, Jeffrey Carmichael <
> >>> [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.
> >>>
> >>>> *****
> >>>>
> >>>> COMMERCIAL RESPONSE
> >>>>
> >>>> Hi Kyle,
> >>>>
> >>>> We've found that it's most often the mounting of the dichroic itself
> >>>> that
> >>>> causes the most distortion in an image reflected off of a dichroic.
> You
> >>>> could theoretically have an "ideal" dichroic with no curvature, but
> once
> >>>>
> >>> it
> >>>
> >>>> is affixed, it will be torqued out of flatness to some extent unless
> you
> >>>> can completely avoid any mounting stress.
> >>>>
> >>>> If held by means that apply pressure on top or bottom of the large
> >>>>
> >>> surface,
> >>>
> >>>> you will get various forms of non-spherical astigmatism.  Even light
> >>>> pressure on the sides of the dichroic will have some effect.
> >>>>
> >>>> As Zdenek suggested, thicker dichroics are stiffer and will better
> >>>> resist
> >>>> deformation.
> >>>>
> >>>> If possible, try using something like silicone RTV applied very
> >>>> sparingly
> >>>> in small beads around the outside edges of the dichroic, but never
> under
> >>>> it.  This serves to prevent the dichroic from moving around without
> >>>> applying stress.  If the "holder" is removable, then you can swap out
> >>>>
> >>> these
> >>>
> >>>> mounted dichroics and not fiddle with the dichroic itself once
> affixed.
> >>>>
> >>>> Jeff
> >>>>
> >>>>
> >>>> *Jeff Carmichael*
> >>>>
> >>>> *Technical and Product Marketing Manager*
> >>>>
> >>>> *[hidden email] <[hidden email]>*Chroma Technology
> >>>> Corp.
> >>>>
> >>>> *an employee owned company*
> >>>> *10 Imtec Lane*
> >>>> *Bellows Falls, VT  05301*
> >>>> *802-428-2528 Office*
> >>>> *802-428-2528 Fax**800-824-7662 Toll Free*
> >>>>
> >>>> On Mon, Feb 13, 2017 at 9:27 AM, Kyle Douglass <[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.
> >>>>
> >>>>> *****
> >>>>>
> >>>>> Hi everyone,
> >>>>>
> >>>>> A couple years ago there was a post on this forum about significant
> >>>>> astigmatism appearing in the reflected path of a custom-built, two
> >>>>>
> >>>> camera
> >>>
> >>>> TIRF setup. (http://confocal-microscopy-list.588098.n2.nabble.com/
> >>>>>
> >>>> Reflec
> >>>
> >>>> ted-image-gt-astigmatism-td7584402.html) The original poster had
> >>>>>
> >>>> placed
> >>>
> >>>> a
> >>>>
> >>>>> dichroic before a pair of matched tube lenses to split the two color
> >>>>> channels onto two separate cameras. The general consensus was that
> you
> >>>>> could "buy your way out of the problem" by buying a thick, ultraflat
> >>>>> dichroic.
> >>>>>
> >>>>> I am trying a similar approach on a setup in our lab but, due to
> space
> >>>>> constraints that are not easily overcome, have tried first placing
> the
> >>>>> channel-splitting dichroic in the image space after the final tube
> lens
> >>>>> instead of in the infinity space between the objective and tube lens.
> >>>>>
> >>>> Even
> >>>>
> >>>>> with a 3 mm thick ultraflat dichroic, I see moderately bad
> astigmatism
> >>>>>
> >>>> in
> >>>
> >>>> the reflected channel. I have ruled out other possible sources of the
> >>>>> astigmatism, like an additional dichroic for the excitation light and
> >>>>> filters that already lie in the infinity space between the objective
> >>>>>
> >>>> and
> >>>
> >>>> tube lens.
> >>>>>
> >>>>> My question is: is it even worth trying to eliminate the astigmatism
> in
> >>>>> the reflected path of a split-channel setup if the dichroic does not
> >>>>>
> >>>> lie
> >>>
> >>>> in
> >>>>
> >>>>> the infinity space? Or is it pretty much always a bad idea to put the
> >>>>> splitter dichroic in the image space?
> >>>>>
> >>>>> My current suspicion is that the tolerances in the alignment have to
> be
> >>>>> very, very tight to avoid astigmatism with the splitter in the image
> >>>>>
> >>>> space.
> >>>>
> >>>>> Thanks for your feedback.
> >>>>>
> >>>>> Kyle
> >>>>>
> >>>>> --
> >>>>> Kyle M. Douglass, PhD
> >>>>> Post-doctoral researcher
> >>>>> The Laboratory of Experimental Biophysics
> >>>>> EPFL, Lausanne, Switzerland
> >>>>> http://kmdouglass.github.io
> >>>>> http://leb.epfl.ch
> >>>>>
> >>>>>
> > --
> >
> > *James Kerin
> > *
> >
> > *Marketing Director*
> > Cairn Research Ltd
> > Graveney Road
> > Faversham
> > Kent, ME13 8UP
> > UK
> >
> > Direct: + 44 (0)1795 594507
> > Fax: + 44 (0) 1795 594510
> >
>

> *****
> 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.
> *****
>
> Hi Kyle,
>
> Our friends and colleagues have done an excellent job of covering this
> topic, and I very much agree with the contents and summaries provided. I
> would like to add one further minor point which may or may not be
> applicable depending on your setup:
>
> WFE of any type (including astigmatism) is additive and you mentioned
> upstream dichroics and filters (and mirrors?). If you're unlucky then it
> may be that these previous optics have already put you 'on the edge' of an
> acceptable/perceptible astigmatism and that the last guy is simply pushing
> you over. If you can't fix it with careful mounting of the last guy then it
> may be worth giving the upstream optics an equal measure of care
> (especially if you have reflectors). Without a TWE measurement of the
> system optic by optic you cannot tell what's going on, so just be
> suspicious of everyone!
>
> Regards,
>
> Alfred Millett-Sikking.
>
>
> On 14 February 2017 at 06:35, James Kerin <[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.
>> *****
>>
>> COMMERCIAL RESPONSE
>>
>> Our President and Managing Director have prepared the following response:
>>
>> Hi Kyle
>>
>> Based on our experience of designing image splitters and multicamera
>> adapters, we can strongly underline the points made by Jeff Carmichael.  As
>> he says, to avoid any aberrations in the reflected channel, the dichroic
>> must be “softly” mounted against a truly flat surface.  Curvature in only
>> one direction will indeed give astigmatism, but more complex curvatures,
>> especially if there is a bit of twist as well, can give significant image
>> distortion too – think fairground mirrors!  Even if the images are more or
>> less in focus over the field, this will clearly show up when (as is so
>> often required) the transmitted and reflected images are superimposed for
>> analysis.  As camera resolution has improved, such effects have become ever
>> more obvious, but even with megapixel cameras it should be possible to
>> overlay the images to within a just a pixel or two over the field.  However
>> that does require similar detail to the design of the rest of the optical
>> system, which should be as symmetrical as possible between the transmitted
>> and reflected pathways, as it is in our image splitters as well as our
>> camera adapters.
>>
>> The flatness issue applies whether the reflection occurs in an infinity
>> space or an imaging space, but there is another problem if the dichroic is
>> in imaging space, namely that of astigmatism in the transmitted channel.
>> This is because the dichroic is at an angle (typically 45 degrees of
>> course) with respect to the light path. Optical modelling shows the
>> following effects, some of which may be counterintuitive.  As might be
>> expected though, the astigmatism, which is uniform over the field,
>> increases with the refractive index and thickness of the dichroic, as well
>> as with its angle.  (By the way, that's probably why the dichroics used in
>> microscopes to introduce an epi-illumination beam are traditionally “thin”,
>> typically just a millimetre, as in the older (noninfinity) microscopes the
>> dichroic was in the imaging space from the objective).
>>
>> We wonder if this effect might be relevant to Kyle's problem, especially
>> if the dichroic is relatively thick.  Relating to that, we have an
>> observation and a suggestion.  The optical modelling shows that the
>> astigmatism is independent of the dichroic's position within the imaging
>> space, so moving it closer to either the camera or the focussing lens won't
>> help.
>>
>> We are also pleased from our modelling to confirm that Andrew York's
>> solution to use a second piece of glass mounted at an orthogonal angle is a
>> correct one rather than just a “hack”, even though it may “sound” wrong.
>> The astigmatism arises because the effective thickness of the glass is
>> different in the x and y directions because of it being at an angle.  The
>> sign of the angle doesn't matter, so adding another piece of glass angled
>> oppositely would make the problem worse rather than better.  But it you
>> rotate by 90 degrees, the directional differences now cancel, and you're
>> just left with a small and probably negligible (according to our modelling
>> at least!) chromatic effect from the dispersion of the glass.
>>
>> Dr MV Thomas & Jez Graham
>> Cairn Research Ltd
>> Graveney Road
>> Faversham
>> Kent, ME13 8UP
>> UK
>> Cairn Research is a European scientific instruments manufacturer based in
>> Kent, UK.
>> www.cairn-research.co.uk
>>
>>
>>
>>
>>
>> On 2/13/2017 9:34 PM, Andrew York 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.
>>> *****
>>>
>>>    I'm worried that your transmission path will also have astigmatism.
>>> Even a
>>> perfectly flat piece of glass yields astigmatism in transmission if it's
>>> tilted in a non-infinity space, right?
>>>
>>> (Warning: lousy advice below)
>>>    I've encountered this myself, and "fixed" it with a second piece of
>>> glass,
>>> the same thickness and material as the first, tilted equally about an
>>> orthogonal axis, to introduce "equal and opposite" astigmatism. This was a
>>> hack, but it was good enough for my needs at the time. Depending on your
>>> needs, perhaps you could use tilted flat glass as a tunable astigmatism
>>> compensation.
>>>
>>> On Mon, Feb 13, 2017 at 8:45 AM, Rusty Nicovich <[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.
>>>> *****
>>>>
>>>> Kyle,
>>>>
>>>> The other poster was me.  I ultimately fixed the issue to my satisfaction
>>>> by carefully mounting the dichroic to the cube with double-sided tape
>>>> rather than the provided clamp.  That method was stress-free enough to
>>>> not
>>>> induce any undue curvature in the dichroic, at least qualitatively as no
>>>> astigmatism immediately obvious in the reflected image.  This was even
>>>> with
>>>> a relatively thin (1.1 mm) substrate for the mirror. This solution is
>>>> similar to what Jeff suggested using silicone adhesive instead of tape.
>>>>
>>>> Another fun part of that system is that the camera fans would induce
>>>> quite
>>>> a large vibration and only along one axis.  The vibration period was
>>>> 10-20
>>>> ms, which meant any longer exposures would yield a PSF elongated on that
>>>> axis.  Astigmatism would vary along the focal axis and this didn't, but
>>>> it
>>>> still gave an asymmetric PSF at the focal plane.
>>>>
>>>> Thanks,
>>>> Rusty
>>>>
>>>> On Mon, Feb 13, 2017 at 7:49 AM, Jeffrey Carmichael <
>>>> [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.
>>>>
>>>>> *****
>>>>>
>>>>> COMMERCIAL RESPONSE
>>>>>
>>>>> Hi Kyle,
>>>>>
>>>>> We've found that it's most often the mounting of the dichroic itself
>>>>> that
>>>>> causes the most distortion in an image reflected off of a dichroic.  You
>>>>> could theoretically have an "ideal" dichroic with no curvature, but once
>>>>>
>>>> it
>>>>
>>>>> is affixed, it will be torqued out of flatness to some extent unless you
>>>>> can completely avoid any mounting stress.
>>>>>
>>>>> If held by means that apply pressure on top or bottom of the large
>>>>>
>>>> surface,
>>>>
>>>>> you will get various forms of non-spherical astigmatism.  Even light
>>>>> pressure on the sides of the dichroic will have some effect.
>>>>>
>>>>> As Zdenek suggested, thicker dichroics are stiffer and will better
>>>>> resist
>>>>> deformation.
>>>>>
>>>>> If possible, try using something like silicone RTV applied very
>>>>> sparingly
>>>>> in small beads around the outside edges of the dichroic, but never under
>>>>> it.  This serves to prevent the dichroic from moving around without
>>>>> applying stress.  If the "holder" is removable, then you can swap out
>>>>>
>>>> these
>>>>
>>>>> mounted dichroics and not fiddle with the dichroic itself once affixed.
>>>>>
>>>>> Jeff
>>>>>
>>>>>
>>>>> *Jeff Carmichael*
>>>>>
>>>>> *Technical and Product Marketing Manager*
>>>>>
>>>>> *[hidden email] <[hidden email]>*Chroma Technology
>>>>> Corp.
>>>>>
>>>>> *an employee owned company*
>>>>> *10 Imtec Lane*
>>>>> *Bellows Falls, VT  05301*
>>>>> *802-428-2528 Office*
>>>>> *802-428-2528 Fax**800-824-7662 Toll Free*
>>>>>
>>>>> On Mon, Feb 13, 2017 at 9:27 AM, Kyle Douglass <[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.
>>>>>
>>>>>> *****
>>>>>>
>>>>>> Hi everyone,
>>>>>>
>>>>>> A couple years ago there was a post on this forum about significant
>>>>>> astigmatism appearing in the reflected path of a custom-built, two
>>>>>>
>>>>> camera
>>>>> TIRF setup. (http://confocal-microscopy-list.588098.n2.nabble.com/
>>>>> Reflec
>>>>> ted-image-gt-astigmatism-td7584402.html) The original poster had
>>>>> placed
>>>>> a
>>>>>
>>>>>> dichroic before a pair of matched tube lenses to split the two color
>>>>>> channels onto two separate cameras. The general consensus was that you
>>>>>> could "buy your way out of the problem" by buying a thick, ultraflat
>>>>>> dichroic.
>>>>>>
>>>>>> I am trying a similar approach on a setup in our lab but, due to space
>>>>>> constraints that are not easily overcome, have tried first placing the
>>>>>> channel-splitting dichroic in the image space after the final tube lens
>>>>>> instead of in the infinity space between the objective and tube lens.
>>>>>>
>>>>> Even
>>>>>
>>>>>> with a 3 mm thick ultraflat dichroic, I see moderately bad astigmatism
>>>>>>
>>>>> in
>>>>> the reflected channel. I have ruled out other possible sources of the
>>>>>> astigmatism, like an additional dichroic for the excitation light and
>>>>>> filters that already lie in the infinity space between the objective
>>>>>>
>>>>> and
>>>>> tube lens.
>>>>>> My question is: is it even worth trying to eliminate the astigmatism in
>>>>>> the reflected path of a split-channel setup if the dichroic does not
>>>>>>
>>>>> lie
>>>>> in
>>>>>
>>>>>> the infinity space? Or is it pretty much always a bad idea to put the
>>>>>> splitter dichroic in the image space?
>>>>>>
>>>>>> My current suspicion is that the tolerances in the alignment have to be
>>>>>> very, very tight to avoid astigmatism with the splitter in the image
>>>>>>
>>>>> space.
>>>>>
>>>>>> Thanks for your feedback.
>>>>>>
>>>>>> Kyle
>>>>>>
>>>>>> --
>>>>>> Kyle M. Douglass, PhD
>>>>>> Post-doctoral researcher
>>>>>> The Laboratory of Experimental Biophysics
>>>>>> EPFL, Lausanne, Switzerland
>>>>>> http://kmdouglass.github.io
>>>>>> http://leb.epfl.ch
>>>>>>
>>>>>>
>> --
>>
>> *James Kerin
>> *
>>
>> *Marketing Director*
>> Cairn Research Ltd
>> Graveney Road
>> Faversham
>> Kent, ME13 8UP
>> UK
>>
>> Direct: + 44 (0)1795 594507
>> Fax: + 44 (0) 1795 594510
>>