Zeiss 40X N.A. 1.4 Plan APo as replacement for 63X?

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>
> Does anyone have experience with the new Zeiss 40X N.A. 1.4 PlanApo?  This
> is something I've wanted for a long time, the ability to take large fields
> of view (2k X 2k pixels) at high resolution instead of having to do tiling.
>  Also, with the new cameras that have oodles of small pixels...
>
> I'm considering replacing our 63X with this new 40X.  Any experience with
> this, other than the battle of having to explain to other scope users why
> this is not really lower magnification?
>
> Regards,
>
> Michael
>
> ===========================================================================
> Michael Cammer, Microscopy Core & Dustin Lab , Skirball Institute, NYU
> Langone Medical Center
> Cell:  914-309-3270   Lab: 212-263-3208
> http://ocs.med.nyu.edu/microscopy &
> http://www.med.nyu.edu/skirball-lab/dustinlab/
>
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> On 11 Jul 2014, at 16:47, "Cammer, Michael" <[hidden email]> wrote:
>
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>
> Does anyone have experience with the new Zeiss 40X N.A. 1.4 PlanApo?  This is something I've wanted for a long time, the ability to take large fields of view (2k X 2k pixels) at high resolution instead of having to do tiling.  Also, with the new cameras that have oodles of small pixels...
>
> I'm considering replacing our 63X with this new 40X.  Any experience with this, other than the battle of having to explain to other scope users why this is not really lower magnification?
>
> Regards,
>
> Michael
>
> ===========================================================================
> Michael Cammer, Microscopy Core & Dustin Lab , Skirball Institute, NYU Langone Medical Center
> Cell:  914-309-3270   Lab: 212-263-3208
> http://ocs.med.nyu.edu/microscopy & http://www.med.nyu.edu/skirball-lab/dustinlab/
>
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> *****
>
> Does anyone have experience with the new Zeiss 40X N.A. 1.4 PlanApo?  This is something I've wanted for a long time, the ability to take large fields of view (2k X 2k pixels) at high resolution instead of having to do tiling.  Also, with the new cameras that have oodles of small pixels...
>
> I'm considering replacing our 63X with this new 40X.  Any experience with this, other than the battle of having to explain to other scope users why this is not really lower magnification?
>
> Regards,
>
> Michael
>
> ===========================================================================
> Michael Cammer, Microscopy Core&  Dustin Lab , Skirball Institute, NYU Langone Medical Center
> Cell:  914-309-3270   Lab: 212-263-3208
> http://ocs.med.nyu.edu/microscopy&  http://www.med.nyu.edu/skirball-lab/dustinlab/
>
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>    

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>
> Hi Michael,
> why 2kx2k?
> If the 40x lens has a 250x250 um field of view, this would be undersampling,
> pixel size 125x125 nm. If even larger field of view, undersampling even
> more.
> I suggest pixel size of 50x50 or 60x60 nm, and 3D deconvolution (Z step 200
> nm, maybe closer),
> George
>
> On 7/11/2014 8:53 AM, Cammer, Michael 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.
>> *****
>>
>> Does anyone have experience with the new Zeiss 40X N.A. 1.4 PlanApo?  This
>> is something I've wanted for a long time, the ability to take large fields
>> of view (2k X 2k pixels) at high resolution instead of having to do tiling.
>> Also, with the new cameras that have oodles of small pixels...
>>
>> I'm considering replacing our 63X with this new 40X.  Any experience with
>> this, other than the battle of having to explain to other scope users why
>> this is not really lower magnification?
>>
>> Regards,
>>
>> Michael
>>
>>
>> ===========================================================================
>> Michael Cammer, Microscopy Core&  Dustin Lab , Skirball Institute, NYU
>> Langone Medical Center
>> Cell:  914-309-3270   Lab: 212-263-3208
>> http://ocs.med.nyu.edu/microscopy&
>> http://www.med.nyu.edu/skirball-lab/dustinlab/
>>
>> ------------------------------------------------------------
>> This email message, including any attachments, is for the sole use of the
>> intended recipient(s) and may contain information that is proprietary,
>> confidential, and exempt from disclosure under applicable law. Any
>> unauthorized review, use, disclosure, or distribution is prohibited. If you
>> have received this email in error please notify the sender by return email
>> and delete the original message. Please note, the recipient should check
>> this email and any attachments for the presence of viruses. The organization
>> accepts no liability for any damage caused by any virus transmitted by this
>> email.
>> =================================
>>
>>
>
>
>
> --
>
>
>
> George McNamara, Ph.D.
> Single Cells Analyst
> L.J.N. Cooper Lab
> University of Texas M.D. Anderson Cancer Center
> Houston, TX 77054
> Tattletales http://works.bepress.com/gmcnamara/42

> *****
> To join, leave or search the confocal microscopy listserv, go to:
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> Post images on http://www.imgur.com and include the link in your posting.
> *****
>
> Hello,
> I would like to react to George. In my humble opinion, best lateral
> optical resolution for confocal microscope is around 130 nm, so going
> to resolution 60x60 nm is overshoot and it is just wasting your drive
> space as you are not collecting any new real information. Resolutions
> of 50x50nm and such are area of superresolution microscopy. Our
> confocal Zeiss LSM 700 we have also highest resolution of 2k x 2k.
> High quality CCDs have even less, but sCMOS can get higher than 2k x
> 2k for sure. We have objective Zeiss 40x but NA 1,3 and I can tell you
> that it is the most used objective (usually we observe stem cells)
> even tho it is not NA1,4. We have also 63x1,4 NA but ppl prefer larger
> field of view of 40x. You still get great detail and many cells in one
> image. But if you want to observe really up close organels and such I
> would go to 63x NA1,4. 40x NA 1,4 seems to me like most flexible
> objective for vast majority of observations.
> Miroslav
>
>
> 2014-07-14 1:31 GMT+02:00 George McNamara <[hidden email]>:
>> *****
>> 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 Michael,
>> why 2kx2k?
>> If the 40x lens has a 250x250 um field of view, this would be undersampling,
>> pixel size 125x125 nm. If even larger field of view, undersampling even
>> more.
>> I suggest pixel size of 50x50 or 60x60 nm, and 3D deconvolution (Z step 200
>> nm, maybe closer),
>> George
>>
>> On 7/11/2014 8:53 AM, Cammer, Michael 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.
>>> *****
>>>
>>> Does anyone have experience with the new Zeiss 40X N.A. 1.4 PlanApo?  This
>>> is something I've wanted for a long time, the ability to take large fields
>>> of view (2k X 2k pixels) at high resolution instead of having to do tiling.
>>> Also, with the new cameras that have oodles of small pixels...
>>>
>>> I'm considering replacing our 63X with this new 40X.  Any experience with
>>> this, other than the battle of having to explain to other scope users why
>>> this is not really lower magnification?
>>>
>>> Regards,
>>>
>>> Michael
>>>
>>>
>>> ===========================================================================
>>> Michael Cammer, Microscopy Core&  Dustin Lab , Skirball Institute, NYU
>>> Langone Medical Center
>>> Cell:  914-309-3270   Lab: 212-263-3208
>>> http://ocs.med.nyu.edu/microscopy&
>>> http://www.med.nyu.edu/skirball-lab/dustinlab/
>>>
>>> ------------------------------------------------------------
>>> This email message, including any attachments, is for the sole use of the
>>> intended recipient(s) and may contain information that is proprietary,
>>> confidential, and exempt from disclosure under applicable law. Any
>>> unauthorized review, use, disclosure, or distribution is prohibited. If you
>>> have received this email in error please notify the sender by return email
>>> and delete the original message. Please note, the recipient should check
>>> this email and any attachments for the presence of viruses. The organization
>>> accepts no liability for any damage caused by any virus transmitted by this
>>> email.
>>> =================================
>>>
>>>
>>
>>
>>
>> --
>>
>>
>>
>> George McNamara, Ph.D.
>> Single Cells Analyst
>> L.J.N. Cooper Lab
>> University of Texas M.D. Anderson Cancer Center
>> Houston, TX 77054
>> Tattletales http://works.bepress.com/gmcnamara/42

> *****
> 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.
> *****
>
> Re: “ But if you want to observe really up close organels and such I would go to 63x NA1,4” .
>
> The beauty of the scanning confocal is that you can use zoom to go from 40x -> 63x or whatever. You do not need an objective of the same NA but different magnification to achieve this.
>
> Cheers,
> Mark
>
>
> On 14/07/2014, at 8:54 am, Miroslav Varecha <[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.
>> *****
>>
>> Hello,
>> I would like to react to George. In my humble opinion, best lateral
>> optical resolution for confocal microscope is around 130 nm, so going
>> to resolution 60x60 nm is overshoot and it is just wasting your drive
>> space as you are not collecting any new real information. Resolutions
>> of 50x50nm and such are area of superresolution microscopy. Our
>> confocal Zeiss LSM 700 we have also highest resolution of 2k x 2k.
>> High quality CCDs have even less, but sCMOS can get higher than 2k x
>> 2k for sure. We have objective Zeiss 40x but NA 1,3 and I can tell you
>> that it is the most used objective (usually we observe stem cells)
>> even tho it is not NA1,4. We have also 63x1,4 NA but ppl prefer larger
>> field of view of 40x. You still get great detail and many cells in one
>> image. But if you want to observe really up close organels and such I
>> would go to 63x NA1,4. 40x NA 1,4 seems to me like most flexible
>> objective for vast majority of observations.
>> Miroslav
>>
>>
>> 2014-07-14 1:31 GMT+02:00 George McNamara <[hidden email]>:
>>> *****
>>> 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 Michael,
>>> why 2kx2k?
>>> If the 40x lens has a 250x250 um field of view, this would be undersampling,
>>> pixel size 125x125 nm. If even larger field of view, undersampling even
>>> more.
>>> I suggest pixel size of 50x50 or 60x60 nm, and 3D deconvolution (Z step 200
>>> nm, maybe closer),
>>> George
>>>
>>> On 7/11/2014 8:53 AM, Cammer, Michael 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.
>>>> *****
>>>>
>>>> Does anyone have experience with the new Zeiss 40X N.A. 1.4 PlanApo?  This
>>>> is something I've wanted for a long time, the ability to take large fields
>>>> of view (2k X 2k pixels) at high resolution instead of having to do tiling.
>>>> Also, with the new cameras that have oodles of small pixels...
>>>>
>>>> I'm considering replacing our 63X with this new 40X.  Any experience with
>>>> this, other than the battle of having to explain to other scope users why
>>>> this is not really lower magnification?
>>>>
>>>> Regards,
>>>>
>>>> Michael
>>>>
>>>>
>>>> ===========================================================================
>>>> Michael Cammer, Microscopy Core&  Dustin Lab , Skirball Institute, NYU
>>>> Langone Medical Center
>>>> Cell:  914-309-3270   Lab: 212-263-3208
>>>> http://ocs.med.nyu.edu/microscopy&
>>>> http://www.med.nyu.edu/skirball-lab/dustinlab/
>>>>
>>>> ------------------------------------------------------------
>>>> This email message, including any attachments, is for the sole use of the
>>>> intended recipient(s) and may contain information that is proprietary,
>>>> confidential, and exempt from disclosure under applicable law. Any
>>>> unauthorized review, use, disclosure, or distribution is prohibited. If you
>>>> have received this email in error please notify the sender by return email
>>>> and delete the original message. Please note, the recipient should check
>>>> this email and any attachments for the presence of viruses. The organization
>>>> accepts no liability for any damage caused by any virus transmitted by this
>>>> email.
>>>> =================================
>>>>
>>>>
>>>
>>>
>>>
>>> --
>>>
>>>
>>>
>>> George McNamara, Ph.D.
>>> Single Cells Analyst
>>> L.J.N. Cooper Lab
>>> University of Texas M.D. Anderson Cancer Center
>>> Houston, TX 77054
>>> Tattletales http://works.bepress.com/gmcnamara/42
>
> Mark  B. Cannell Ph.D. FRSNZ
> Professor of Cardiac Cell Biology
> School of Physiology &  Pharmacology
> Medical Sciences Building
> University of Bristol
> Bristol
> BS8 1TD UK
>
> [hidden email]

>*****
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>roscopy
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>posting.
>*****
>
>Hello,
>I would like to react to George. In my humble opinion, best lateral
>optical resolution for confocal microscope is around 130 nm, so going
>to resolution 60x60 nm is overshoot and it is just wasting your drive
>space as you are not collecting any new real information. Resolutions
>of 50x50nm and such are area of superresolution microscopy. Our
>confocal Zeiss LSM 700 we have also highest resolution of 2k x 2k.
>High quality CCDs have even less, but sCMOS can get higher than 2k x
>2k for sure. We have objective Zeiss 40x but NA 1,3 and I can tell you
>that it is the most used objective (usually we observe stem cells)
>even tho it is not NA1,4. We have also 63x1,4 NA but ppl prefer larger
>field of view of 40x. You still get great detail and many cells in one
>image. But if you want to observe really up close organels and such I
>would go to 63x NA1,4. 40x NA 1,4 seems to me like most flexible
>objective for vast majority of observations.
>Miroslav
>
>
>2014-07-14 1:31 GMT+02:00 George McNamara <[hidden email]>:
>> *****
>> To join, leave or search the confocal microscopy listserv, go to:
>>
>>http://scanmail.trustwave.com/?c=129&d=yZPD0xJAtv-GdZ33VVkWaDRlPiHp_igFiB
>>nBHX8_EA&u=http%3a%2f%2flists%2eumn%2eedu%2fcgi-bin%2fwa%3fA0%3dconfocalm
>>icroscopy
>> Post images on
>>http://scanmail.trustwave.com/?c=129&d=ypPD068thzYagx2Iq28ffbXdwsGOCB4DfB
>>tS15fOrw&u=http%3a%2f%2fwww%2eimgur%2ecom and include the link in your
>>posting.
>> *****
>>
>> Hi Michael,
>> why 2kx2k?
>> If the 40x lens has a 250x250 um field of view, this would be
>>undersampling,
>> pixel size 125x125 nm. If even larger field of view, undersampling even
>> more.
>> I suggest pixel size of 50x50 or 60x60 nm, and 3D deconvolution (Z step
>>200
>> nm, maybe closer),
>> George
>>
>> On 7/11/2014 8:53 AM, Cammer, Michael wrote:
>>>
>>> *****
>>> To join, leave or search the confocal microscopy listserv, go to:
>>>
>>>http://scanmail.trustwave.com/?c=129&d=ypPD068thzYagx2Iq28ffbXdwsGOCB4Df
>>>E5ThZ2a_w&u=http%3a%2f%2flists%2eumn%2eedu%2fcgi-bin%2fwa%3fA0%3dconfoca
>>>lmicroscopy
>>> Post images on
>>>http://scanmail.trustwave.com/?c=129&d=ypPD068thzYagx2Iq28ffbXdwsGOCB4Df
>>>BtS15fOrw&u=http%3a%2f%2fwww%2eimgur%2ecom and include the link in your
>>>posting.
>>> *****
>>>
>>> Does anyone have experience with the new Zeiss 40X N.A. 1.4 PlanApo?
>>>This
>>> is something I've wanted for a long time, the ability to take large
>>>fields
>>> of view (2k X 2k pixels) at high resolution instead of having to do
>>>tiling.
>>> Also, with the new cameras that have oodles of small pixels...
>>>
>>> I'm considering replacing our 63X with this new 40X.  Any experience
>>>with
>>> this, other than the battle of having to explain to other scope users
>>>why
>>> this is not really lower magnification?
>>>
>>> Regards,
>>>
>>> Michael
>>>
>>>
>>>
>>>========================================================================
>>>===
>>> Michael Cammer, Microscopy Core&  Dustin Lab , Skirball Institute, NYU
>>> Langone Medical Center
>>> Cell:  914-309-3270   Lab: 212-263-3208
>>>
>>>http://scanmail.trustwave.com/?c=129&d=ypPD068thzYagx2Iq28ffbXdwsGOCB4Df
>>>BsGgZDJrw&u=http%3a%2f%2focs%2emed%2enyu%2eedu%2fmicroscopy%26
>>>
>>>http://scanmail.trustwave.com/?c=129&d=ypPD068thzYagx2Iq28ffbXdwsGOCB4Df
>>>EBS0pSW-w&u=http%3a%2f%2fwww%2emed%2enyu%2eedu%2fskirball-lab%2fdustinla
>>>b%2f
>>>
>>> ------------------------------------------------------------
>>> This email message, including any attachments, is for the sole use of
>>>the
>>> intended recipient(s) and may contain information that is proprietary,
>>> confidential, and exempt from disclosure under applicable law. Any
>>> unauthorized review, use, disclosure, or distribution is prohibited.
>>>If you
>>> have received this email in error please notify the sender by return
>>>email
>>> and delete the original message. Please note, the recipient should
>>>check
>>> this email and any attachments for the presence of viruses. The
>>>organization
>>> accepts no liability for any damage caused by any virus transmitted by
>>>this
>>> email.
>>> =================================
>>>
>>>
>>
>>
>>
>> --
>>
>>
>>
>> George McNamara, Ph.D.
>> Single Cells Analyst
>> L.J.N. Cooper Lab
>> University of Texas M.D. Anderson Cancer Center
>> Houston, TX 77054
>> Tattletales
>>http://scanmail.trustwave.com/?c=129&d=ypPD068thzYagx2Iq28ffbXdwsGOCB4DfE
>>FXhMSb-w&u=http%3a%2f%2fworks%2ebepress%2ecom%2fgmcnamara%2f42

> *****
> 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 Miroslav,
>
> You are correct that even in the best case a traditional optical
> microscope can only separate point sources > 100 nm apart.  However the
> theoretical resolution limit is far from the same thing as the ideal
> resolution for sampling.  As George mentioned if you want to get the most
> out of an optical image then you should deconvolve out the point spread
> function.  In that case the optimal sampling for proper deconvolution
> depends on seeing enough of the PSF from a given point source to guess at
> its center, in which case you need to sample at roughly twice as fine as
> the theoretical limit of a given NA/wavelength/refractive index.  This
> sampling theorem was worked out by a fellow named Harry Nuqiust during his
> work with radio signals.  In practice I recommend that pretty much
> everyone who works near the resolution limit of their system take the time
> to deconvolve their data.
>
> Cheers,
>
>
> TF
>
> Timothy Feinstein, Ph.D. | Confocal Manager
> 333 Bostwick Ave., N.E., Grand Rapids, Michigan 49503
> Phone: 616-234-5819 | Email: [hidden email]
>
>
>
>
>
>
>
> On 7/14/14, 3:54 AM, "Miroslav Varecha" <[hidden email]> wrote:
>
> >*****
> >To join, leave or search the confocal microscopy listserv, go to:
> >
> http://scanmail.trustwave.com/?c=129&d=yZPD0xJAtv-GdZ33VVkWaDRlPiHp_igFiBn
> >BHX8_EA&u=http%3a%2f%2flists%2eumn%2eedu%2fcgi-bin%2fwa%3fA0%3dconfocalmic
> >roscopy
> >Post images on
> >
> http://scanmail.trustwave.com/?c=129&d=yZPD0xJAtv-GdZ33VVkWaDRlPiHp_igFiEz
> >AT3VrQA&u=http%3a%2f%2fwww%2eimgur%2ecom and include the link in your
> >posting.
> >*****
> >
> >Hello,
> >I would like to react to George. In my humble opinion, best lateral
> >optical resolution for confocal microscope is around 130 nm, so going
> >to resolution 60x60 nm is overshoot and it is just wasting your drive
> >space as you are not collecting any new real information. Resolutions
> >of 50x50nm and such are area of superresolution microscopy. Our
> >confocal Zeiss LSM 700 we have also highest resolution of 2k x 2k.
> >High quality CCDs have even less, but sCMOS can get higher than 2k x
> >2k for sure. We have objective Zeiss 40x but NA 1,3 and I can tell you
> >that it is the most used objective (usually we observe stem cells)
> >even tho it is not NA1,4. We have also 63x1,4 NA but ppl prefer larger
> >field of view of 40x. You still get great detail and many cells in one
> >image. But if you want to observe really up close organels and such I
> >would go to 63x NA1,4. 40x NA 1,4 seems to me like most flexible
> >objective for vast majority of observations.
> >Miroslav
> >
> >
> >2014-07-14 1:31 GMT+02:00 George McNamara <[hidden email]>:
> >> *****
> >> To join, leave or search the confocal microscopy listserv, go to:
> >>
> >>
> http://scanmail.trustwave.com/?c=129&d=yZPD0xJAtv-GdZ33VVkWaDRlPiHp_igFiB
> >>nBHX8_EA&u=http%3a%2f%2flists%2eumn%2eedu%2fcgi-bin%2fwa%3fA0%3dconfocalm
> >>icroscopy
> >> Post images on
> >>
> http://scanmail.trustwave.com/?c=129&d=ypPD068thzYagx2Iq28ffbXdwsGOCB4DfB
> >>tS15fOrw&u=http%3a%2f%2fwww%2eimgur%2ecom and include the link in your
> >>posting.
> >> *****
> >>
> >> Hi Michael,
> >> why 2kx2k?
> >> If the 40x lens has a 250x250 um field of view, this would be
> >>undersampling,
> >> pixel size 125x125 nm. If even larger field of view, undersampling even
> >> more.
> >> I suggest pixel size of 50x50 or 60x60 nm, and 3D deconvolution (Z step
> >>200
> >> nm, maybe closer),
> >> George
> >>
> >> On 7/11/2014 8:53 AM, Cammer, Michael wrote:
> >>>
> >>> *****
> >>> To join, leave or search the confocal microscopy listserv, go to:
> >>>
> >>>
> http://scanmail.trustwave.com/?c=129&d=ypPD068thzYagx2Iq28ffbXdwsGOCB4Df
> >>>E5ThZ2a_w&u=http%3a%2f%2flists%2eumn%2eedu%2fcgi-bin%2fwa%3fA0%3dconfoca
> >>>lmicroscopy
> >>> Post images on
> >>>
> http://scanmail.trustwave.com/?c=129&d=ypPD068thzYagx2Iq28ffbXdwsGOCB4Df
> >>>BtS15fOrw&u=http%3a%2f%2fwww%2eimgur%2ecom and include the link in your
> >>>posting.
> >>> *****
> >>>
> >>> Does anyone have experience with the new Zeiss 40X N.A. 1.4 PlanApo?
> >>>This
> >>> is something I've wanted for a long time, the ability to take large
> >>>fields
> >>> of view (2k X 2k pixels) at high resolution instead of having to do
> >>>tiling.
> >>> Also, with the new cameras that have oodles of small pixels...
> >>>
> >>> I'm considering replacing our 63X with this new 40X.  Any experience
> >>>with
> >>> this, other than the battle of having to explain to other scope users
> >>>why
> >>> this is not really lower magnification?
> >>>
> >>> Regards,
> >>>
> >>> Michael
> >>>
> >>>
> >>>
> >>>========================================================================
> >>>===
> >>> Michael Cammer, Microscopy Core&  Dustin Lab , Skirball Institute, NYU
> >>> Langone Medical Center
> >>> Cell:  914-309-3270   Lab: 212-263-3208
> >>>
> >>>
> http://scanmail.trustwave.com/?c=129&d=ypPD068thzYagx2Iq28ffbXdwsGOCB4Df
> >>>BsGgZDJrw&u=http%3a%2f%2focs%2emed%2enyu%2eedu%2fmicroscopy%26
> >>>
> >>>
> http://scanmail.trustwave.com/?c=129&d=ypPD068thzYagx2Iq28ffbXdwsGOCB4Df
> >>>EBS0pSW-w&u=http%3a%2f%2fwww%2emed%2enyu%2eedu%2fskirball-lab%2fdustinla
> >>>b%2f
> >>>
> >>> ------------------------------------------------------------
> >>> This email message, including any attachments, is for the sole use of
> >>>the
> >>> intended recipient(s) and may contain information that is proprietary,
> >>> confidential, and exempt from disclosure under applicable law. Any
> >>> unauthorized review, use, disclosure, or distribution is prohibited.
> >>>If you
> >>> have received this email in error please notify the sender by return
> >>>email
> >>> and delete the original message. Please note, the recipient should
> >>>check
> >>> this email and any attachments for the presence of viruses. The
> >>>organization
> >>> accepts no liability for any damage caused by any virus transmitted by
> >>>this
> >>> email.
> >>> =================================
> >>>
> >>>
> >>
> >>
> >>
> >> --
> >>
> >>
> >>
> >> George McNamara, Ph.D.
> >> Single Cells Analyst
> >> L.J.N. Cooper Lab
> >> University of Texas M.D. Anderson Cancer Center
> >> Houston, TX 77054
> >> Tattletales
> >>
> http://scanmail.trustwave.com/?c=129&d=ypPD068thzYagx2Iq28ffbXdwsGOCB4DfE
> >>FXhMSb-w&u=http%3a%2f%2fworks%2ebepress%2ecom%2fgmcnamara%2f42
>

> *****
> 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.
> *****
>
> Does anyone have experience with the new Zeiss 40X N.A. 1.4 PlanApo?  This
> is something I've wanted for a long time, the ability to take large fields
> of view (2k X 2k pixels) at high resolution instead of having to do tiling.
>  Also, with the new cameras that have oodles of small pixels...
>
> I'm considering replacing our 63X with this new 40X.  Any experience with
> this, other than the battle of having to explain to other scope users why
> this is not really lower magnification?
>
> Regards,
>
> Michael
>
> ===========================================================================
> Michael Cammer, Microscopy Core & Dustin Lab , Skirball Institute, NYU
> Langone Medical Center
> Cell:  914-309-3270   Lab: 212-263-3208
> http://ocs.med.nyu.edu/microscopy &
> http://www.med.nyu.edu/skirball-lab/dustinlab/
>
> ------------------------------------------------------------
> This email message, including any attachments, is for the sole use of the
> intended recipient(s) and may contain information that is proprietary,
> confidential, and exempt from disclosure under applicable law. Any
> unauthorized review, use, disclosure, or distribution is prohibited. If you
> have received this email in error please notify the sender by return email
> and delete the original message. Please note, the recipient should check
> this email and any attachments for the presence of viruses. The
> organization accepts no liability for any damage caused by any virus
> transmitted by this email.
> =================================
>

> Hello,
> I would like to react to George. In my humble opinion, best lateral
> optical resolution for confocal microscope is around 130 nm, so going
> to resolution 60x60 nm is overshoot and it is just wasting your drive
> space as you are not collecting any new real information. Resolutions
> of 50x50nm and such are area of superresolution microscopy. Our
> confocal Zeiss LSM 700 we have also highest resolution of 2k x 2k.
> High quality CCDs have even less, but sCMOS can get higher than 2k x
> 2k for sure. We have objective Zeiss 40x but NA 1,3 and I can tell you
> that it is the most used objective (usually we observe stem cells)
> even tho it is not NA1,4. We have also 63x1,4 NA but ppl prefer larger
> field of view of 40x. You still get great detail and many cells in one
> image. But if you want to observe really up close organels and such I
> would go to 63x NA1,4. 40x NA 1,4 seems to me like most flexible
> objective for vast majority of observations.
> Miroslav
>
>
> 2014-07-14 1:31 GMT+02:00 George McNamara<[hidden email]>:
>    
>> *****
>> 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 Michael,
>> why 2kx2k?
>> If the 40x lens has a 250x250 um field of view, this would be undersampling,
>> pixel size 125x125 nm. If even larger field of view, undersampling even
>> more.
>> I suggest pixel size of 50x50 or 60x60 nm, and 3D deconvolution (Z step 200
>> nm, maybe closer),
>> George
>>
>> On 7/11/2014 8:53 AM, Cammer, Michael 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.
>>> *****
>>>
>>> Does anyone have experience with the new Zeiss 40X N.A. 1.4 PlanApo?  This
>>> is something I've wanted for a long time, the ability to take large fields
>>> of view (2k X 2k pixels) at high resolution instead of having to do tiling.
>>> Also, with the new cameras that have oodles of small pixels...
>>>
>>> I'm considering replacing our 63X with this new 40X.  Any experience with
>>> this, other than the battle of having to explain to other scope users why
>>> this is not really lower magnification?
>>>
>>> Regards,
>>>
>>> Michael
>>>
>>>
>>> ===========================================================================
>>> Michael Cammer, Microscopy Core&   Dustin Lab , Skirball Institute, NYU
>>> Langone Medical Center
>>> Cell:  914-309-3270   Lab: 212-263-3208
>>> http://ocs.med.nyu.edu/microscopy&
>>> http://www.med.nyu.edu/skirball-lab/dustinlab/
>>>
>>> ------------------------------------------------------------
>>> This email message, including any attachments, is for the sole use of the
>>> intended recipient(s) and may contain information that is proprietary,
>>> confidential, and exempt from disclosure under applicable law. Any
>>> unauthorized review, use, disclosure, or distribution is prohibited. If you
>>> have received this email in error please notify the sender by return email
>>> and delete the original message. Please note, the recipient should check
>>> this email and any attachments for the presence of viruses. The organization
>>> accepts no liability for any damage caused by any virus transmitted by this
>>> email.
>>> =================================
>>>
>>>
>>>        
>>
>>
>> --
>>
>>
>>
>> George McNamara, Ph.D.
>> Single Cells Analyst
>> L.J.N. Cooper Lab
>> University of Texas M.D. Anderson Cancer Center
>> Houston, TX 77054
>> Tattletales http://works.bepress.com/gmcnamara/42
>>      
>    

> Hello,
> I would like to react to George. In my humble opinion, best lateral
> optical resolution for confocal microscope is around 130 nm, so going
> to resolution 60x60 nm is overshoot and it is just wasting your drive
> space as you are not collecting any new real information. Resolutions
> of 50x50nm and such are area of superresolution microscopy. Our
> confocal Zeiss LSM 700 we have also highest resolution of 2k x 2k.
> High quality CCDs have even less, but sCMOS can get higher than 2k x
> 2k for sure. We have objective Zeiss 40x but NA 1,3 and I can tell you
> that it is the most used objective (usually we observe stem cells)
> even tho it is not NA1,4. We have also 63x1,4 NA but ppl prefer larger
> field of view of 40x. You still get great detail and many cells in one
> image. But if you want to observe really up close organels and such I
> would go to 63x NA1,4. 40x NA 1,4 seems to me like most flexible
> objective for vast majority of observations.
> Miroslav
>
>
> 2014-07-14 1:31 GMT+02:00 George McNamara<[hidden email]>:
>
>> *****
>> 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 Michael,
>> why 2kx2k?
>> If the 40x lens has a 250x250 um field of view, this would be
>> undersampling,
>> pixel size 125x125 nm. If even larger field of view, undersampling even
>> more.
>> I suggest pixel size of 50x50 or 60x60 nm, and 3D deconvolution (Z step
>> 200
>> nm, maybe closer),
>> George
>>
>> On 7/11/2014 8:53 AM, Cammer, Michael 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.
>>> *****
>>>
>>> Does anyone have experience with the new Zeiss 40X N.A. 1.4 PlanApo?
>>> This
>>> is something I've wanted for a long time, the ability to take large
>>> fields
>>> of view (2k X 2k pixels) at high resolution instead of having to do
>>> tiling.
>>> Also, with the new cameras that have oodles of small pixels...
>>>
>>> I'm considering replacing our 63X with this new 40X.  Any experience
>>> with
>>> this, other than the battle of having to explain to other scope users
>>> why
>>> this is not really lower magnification?
>>>
>>> Regards,
>>>
>>> Michael
>>>
>>>
>>> ===========================================================================
>>> Michael Cammer, Microscopy Core&   Dustin Lab , Skirball Institute, NYU
>>> Langone Medical Center
>>> Cell:  914-309-3270   Lab: 212-263-3208
>>> http://ocs.med.nyu.edu/microscopy&
>>> http://www.med.nyu.edu/skirball-lab/dustinlab/
>>>
>>> ------------------------------------------------------------
>>> This email message, including any attachments, is for the sole use of
>>> the
>>> intended recipient(s) and may contain information that is proprietary,
>>> confidential, and exempt from disclosure under applicable law. Any
>>> unauthorized review, use, disclosure, or distribution is prohibited. If
>>> you
>>> have received this email in error please notify the sender by return
>>> email
>>> and delete the original message. Please note, the recipient should check
>>> this email and any attachments for the presence of viruses. The
>>> organization
>>> accepts no liability for any damage caused by any virus transmitted by
>>> this
>>> email.
>>> =================================
>>>
>>>
>>>
>>
>>
>> --
>>
>>
>>
>> George McNamara, Ph.D.
>> Single Cells Analyst
>> L.J.N. Cooper Lab
>> University of Texas M.D. Anderson Cancer Center
>> Houston, TX 77054
>> Tattletales http://works.bepress.com/gmcnamara/42
>>
>

> *****
> 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 Miroslav,
>
>
> "highest resolution of 2k x 2k."
>
> is number of pixels in an image, resolution is set by that and field of view
> (zoom).
>
> With the LSM 700 -- or other point scanning confocals -- you can choose the
> zoom and number of pixels to get whatever pixel size you want.
>
> Data acquired on a confocal microscope can be used to obtain
> "superresolution", as for the ~10% increase in resolution (ex. from ~214 nm
> to <200 nm for 500 nm light, Airy disk 1.0) by deconvolving at 50 nm pixel
> size. A pixel size of 130 nm is not going to give you a resolution
> improvement (and the optical resolution of visible light confocal is ~200nm,
> not 130 nm).
> There are also other ways to process images - confocal or widefield - to get
> a lot more out of the source data. Two examples:
> PiMP http://jcs.biologists.org/content/125/9/2257.long   ... which I
> preferred using 30 nm pixel size acquisition on the confocals I managed in
> Miami (LSM710, SP5).
>  3B ... http://www.coxphysics.com/3b/ and http://www.superresolved.com/
> (later is an online forum hosted by Susan cox and Ed Rosten for all
> superduperres).
> SOFI / bSOFI etc (which I've not used) see
> http://www.ncbi.nlm.nih.gov/pubmed/22711840 for Peter Dedecker et al's entry
> point.
>
> Finally, not required by law (or Guy Cox or Jim Pawley or Alby Diaspro) to
> set the confocal pinhole at 1.0 Airy units (for one thing, the physical size
> for that varies with wavelength). With some specimens it is useful to use a
> smaller pinhole. Zeiss has a nice PDF online on different pinhole settings -
> if you cannot find it on an internet search, ask your Zeiss confocal rep to
> find and send it.
>
> As for Nyquist - he had a thing for sine waves. anyone imaging sine waves
> perfectly aligned in X or Y (or rotate scan view to perfectly align) can use
> the Nyquist sampling value (around 2.3). So, to sample correctly for 2D
> Nyquist, need to sample to account for the worse case sine wave at 45
> degrees. Few biological specimens viewed on a confocal or widefield
> fluorescence microscope are sine waves (pattern A at
> http://argolight.com/product-micro/ comes close ... with modest NA objective
> lens probably close enough, but then that is a calibration slide, not a cell
> ... muscle fibers can come close).So, stop thinking Nyquist, and start
> thinking cells.
>
> Enjoy,
>
> George
> p.s. a heavily used objective will generally not perform as well as a brand
> new objective lens.
>
>
> On 7/14/2014 2:54 AM, Miroslav Varecha wrote:
>>
>> Hello,
>> I would like to react to George. In my humble opinion, best lateral
>> optical resolution for confocal microscope is around 130 nm, so going
>> to resolution 60x60 nm is overshoot and it is just wasting your drive
>> space as you are not collecting any new real information. Resolutions
>> of 50x50nm and such are area of superresolution microscopy. Our
>> confocal Zeiss LSM 700 we have also highest resolution of 2k x 2k.
>> High quality CCDs have even less, but sCMOS can get higher than 2k x
>> 2k for sure. We have objective Zeiss 40x but NA 1,3 and I can tell you
>> that it is the most used objective (usually we observe stem cells)
>> even tho it is not NA1,4. We have also 63x1,4 NA but ppl prefer larger
>> field of view of 40x. You still get great detail and many cells in one
>> image. But if you want to observe really up close organels and such I
>> would go to 63x NA1,4. 40x NA 1,4 seems to me like most flexible
>> objective for vast majority of observations.
>> Miroslav
>>
>>
>> 2014-07-14 1:31 GMT+02:00 George McNamara<[hidden email]>:
>>
>>>
>>> *****
>>> 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 Michael,
>>> why 2kx2k?
>>> If the 40x lens has a 250x250 um field of view, this would be
>>> undersampling,
>>> pixel size 125x125 nm. If even larger field of view, undersampling even
>>> more.
>>> I suggest pixel size of 50x50 or 60x60 nm, and 3D deconvolution (Z step
>>> 200
>>> nm, maybe closer),
>>> George
>>>
>>> On 7/11/2014 8:53 AM, Cammer, Michael 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.
>>>> *****
>>>>
>>>> Does anyone have experience with the new Zeiss 40X N.A. 1.4 PlanApo?
>>>> This
>>>> is something I've wanted for a long time, the ability to take large
>>>> fields
>>>> of view (2k X 2k pixels) at high resolution instead of having to do
>>>> tiling.
>>>> Also, with the new cameras that have oodles of small pixels...
>>>>
>>>> I'm considering replacing our 63X with this new 40X.  Any experience
>>>> with
>>>> this, other than the battle of having to explain to other scope users
>>>> why
>>>> this is not really lower magnification?
>>>>
>>>> Regards,
>>>>
>>>> Michael
>>>>
>>>>
>>>>
>>>> ===========================================================================
>>>> Michael Cammer, Microscopy Core&   Dustin Lab , Skirball Institute, NYU
>>>> Langone Medical Center
>>>> Cell:  914-309-3270   Lab: 212-263-3208
>>>> http://ocs.med.nyu.edu/microscopy&
>>>> http://www.med.nyu.edu/skirball-lab/dustinlab/
>>>>
>>>> ------------------------------------------------------------
>>>> This email message, including any attachments, is for the sole use of
>>>> the
>>>> intended recipient(s) and may contain information that is proprietary,
>>>> confidential, and exempt from disclosure under applicable law. Any
>>>> unauthorized review, use, disclosure, or distribution is prohibited. If
>>>> you
>>>> have received this email in error please notify the sender by return
>>>> email
>>>> and delete the original message. Please note, the recipient should check
>>>> this email and any attachments for the presence of viruses. The
>>>> organization
>>>> accepts no liability for any damage caused by any virus transmitted by
>>>> this
>>>> email.
>>>> =================================
>>>>
>>>>
>>>>
>>>
>>>
>>>
>>> --
>>>
>>>
>>>
>>> George McNamara, Ph.D.
>>> Single Cells Analyst
>>> L.J.N. Cooper Lab
>>> University of Texas M.D. Anderson Cancer Center
>>> Houston, TX 77054
>>> Tattletales http://works.bepress.com/gmcnamara/42
>>>
>>
>>
>
>
>
> --
>
>
>
> George McNamara, Ph.D.
> Single Cells Analyst
> L.J.N. Cooper Lab
> University of Texas M.D. Anderson Cancer Center
> Houston, TX 77054
> Tattletales http://works.bepress.com/gmcnamara/42

>*****
>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,
>
>The 40x/1.4 also has some drawbacks. It has a
>working distance of only 130 microns (40x/1.3
>Apo: 210 microns, 63x/1.4 Apo: 190 microns, even
>a 100x/1.4 Apo has 170 microns). Not a problem
>when you're using cell monolayers (provided
>they're on the coverslip), but in 2P or with
>cleared samples, it might become a factor.
>
>More importantly, our 40x/1.4 Apos are a bit
>worse than the 63x/1.4 Apos when it comes to
>chromatic aberration. I generally do not suggest
>it for colocalization studies. Of course you can
>correct with a calibration slide, but this is
>always more accurate if the error is as small as
>possible to begin with. In my opinion, chromatic
>aberration is the only reason to have a 100x
>objective on a confocal, because it tends to
>have the smallest lateral chromatic shift.
>
>Anyway, I've tested the 40x/1.4 objective for
>transmission of laser power (with a powermeter),
>and found the power (very roughly in the focal
>plane) to be 2.1 times higher with the 40x/1.4
>Apo as compared to a 63x/1.4 Apo. I think this
>is mostly because of the much larger rear
>aperture. Because of the powermeter I used there
>is an uncertainty as to the validity of these
>results. I will repeat this, as soon as I have
>the microscope slide power meter head from
>Thorlabs.
>
>After adjusting the AOTF to achieve the same
>excitation power for both objectives, the 40x
>was not brighter anymore. In fact, it was a bit
>darker, although that might have been true for
>that individual objective only. So my impression
>is that the 40x will only provide stronger
>excitation, at the same AOTF setting, than a
>63x. This is nice, but hardly remarkable. In my
>opinion, the rise of NA from 1.3 (previous 40x)
>to 1.4 is counterbalanced by the reduced working
>distance and the non-optimal chromatic
>aberrations. It's a nice enough objective, but
>far from being a gamechanger.
>
>Disclaimer: Of course, it was only one objective
>for the transmission testing, and four for the
>tests of chromatic aberration, in which one was
>okay, two were so-so (but worse than 63x/1.4 in
>general), and one sucked the big one.
>Note that all brightness tests were done with
>PMT point detection. For cameras, magnification
>plays an important role with respect to
>resolution as well as brightness, and it's a
>whole different matter.
>
>Best,
>Tobias
>
>
>BTW: Why "new"? We're talking about product
>number 420762-9900-000
>(https://www.micro-shop.zeiss.com/?s=118967537d39b70&l=en&p=us&f=o&a=v&m=s&id=420762-9900-000),
>right? Not all that new, if you ask me.
>
>
>
>-----Original Message-----
>From: Confocal Microscopy List
>[mailto:[hidden email]] On
>Behalf Of Steffen Dietzel
>Sent: Wednesday, July 16, 2014 7:03 PM
>To: [hidden email]
>Subject: Re: Zeiss 40X N.A. 1.4 Plan APo as replacement for 63X?
>
>*****
>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.
>*****
>
>Am 14.07.2014 16:28, schrieb Feinstein, Timothy:
>>  You are correct that even in the best case a traditional optical
>>  microscope can only separate point sources > 100 nm apart.
>
>Except of course the two point sources are in different color channels.
>Then you can get the two much closer together
>and still measure the distance between their
>intensity centers very accurately. In the
>two-digit nm range, depending only on your
>positioning accuracy.
>Provided you correct for chromatic aberration.
>
>Cheers
>Steffen
>
>
>--
>------------------------------------------------------------
>Steffen Dietzel, PD Dr. rer. nat
>Ludwig-Maximilians-Universität München
>Walter-Brendel-Zentrum für experimentelle
>Medizin (WBex) Head of light microscopy
>
>Mail room:
>Marchioninistr. 15, D-81377 München
>
>Building location:
>Marchioninistr. 27,  München-Großhadern