Oil vs water objectives

> *****
> To join, leave or search the confocal microscopy listserv, go to:
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> *****
>
> Hi,
>
> I have a user who insist that using a 1,27NA water immersion objective is
> brighter and would give better images than using a 1,4NA oil immersion. I
> understand that deeper into the media that would be true. But, in that
> particular case, we are talking about imaging GFP at less than 100 micron
> away with a spinning disk.
>
> So, I was wondering at which distance from the coverslips do we start
> seeing benefits of using a water immersion objective over an oil objective
> in aqueous media.
>
> Thanks for your help.
>
> Sincerely
> *Gabriel Lapointe, M.Sc.*
> Lab Manager / Microscopy Specialist
> Concordia University, Biology Department
> 7141 Sherbrooke St. West SP 534
> Montréal QC H4B 1R6 Canada
> [hidden email]
> cmac.concordia.ca
> http://gabriellapointe.ca
>

>
> This is the type of question that can result in a big theoretical discussion, but in my experience dealing with a wide variety of (mostly) biological material prepared in many different ways, trying each optic for an empirical comparison is the way to go.  
>
> ________________________________________________________
> Michael Cammer, Assistant Research Scientist Skirball Institute of Biomolecular Medicine
> Lab: (212) 263-3208  Cell: (914) 309-3270
>
>
> -----Original Message-----
> From: Confocal Microscopy List [mailto:[hidden email]] On Behalf Of Gabriel Lapointe
> Sent: Thursday, October 04, 2012 9:15 AM
> Subject: Oil vs water objectives
>
> Hi,
>
> I have a user who insist that using a 1,27NA water immersion objective is brighter and would give better images than using a 1,4NA oil immersion. I understand that deeper into the media that would be true. But, in that particular case, we are talking about imaging GFP at less than 100 micron away with a spinning disk.
>
> So, I was wondering at which distance from the coverslips do we start seeing benefits of using a water immersion objective over an oil objective in aqueous media.
>
> Thanks for your help.
>
> Sincerely
> *Gabriel Lapointe, M.Sc.*
> Lab Manager / Microscopy Specialist
> Concordia University, Biology Department
> 7141 Sherbrooke St. West SP 534
> Montréal QC H4B 1R6 Canada
> [hidden email]
> cmac.concordia.ca
> http://gabriellapointe.ca
>
>

> *****
>  To join, leave or search the confocal microscopy listserv, go to:
>  
>  *****
>  
>  Hi,
>  
>  I have a user who insist that using a 1,27NA water immersion
> objective is
>  brighter and would give better images than using a 1,4NA oil
> immersion. I
>  understand that deeper into the media that would be true. But, in that
>  particular case, we are talking about imaging GFP at less than 100 micron
>  away with a spinning disk.
>  
>  So, I was wondering at which distance from the coverslips do we start
>  seeing benefits of using a water immersion objective over an oil objective
>  in aqueous media.
>  
>  Thanks for your help.
>  
>  Sincerely
>  *Gabriel Lapointe, M.Sc.*
>  Lab Manager / Microscopy Specialist
>  Concordia University, Biology Department
>  7141 Sherbrooke St. West SP 534
>  Montréal QC H4B 1R6 Canada
>  [hidden email]
>  cmac.concordia.ca
>

> *****
> To join, leave or search the confocal microscopy listserv, go to:
> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
> *****
>
> Hi,
>
> I have a user who insist that using a 1,27NA water immersion objective
> is brighter and would give better images than using a 1,4NA oil
> immersion. I understand that deeper into the media that would be true.
> But, in that particular case, we are talking about imaging GFP at less
> than 100 micron away with a spinning disk.
>
> So, I was wondering at which distance from the coverslips do we start
> seeing benefits of using a water immersion objective over an oil
> objective in aqueous media.
>
> Thanks for your help.
>
> Sincerely
> *Gabriel Lapointe, M.Sc.*
> Lab Manager / Microscopy Specialist
> Concordia University, Biology Department
> 7141 Sherbrooke St. West SP 534
> Montréal QC H4B 1R6 Canada
> [hidden email]
> cmac.concordia.ca
> http://gabriellapointe.ca
>

>Make sure the coverslip is orthogonal to the
>image axis with your water objective.
>
>A common aberration with water-immersion objective lenses.
>J Microsc. 2004 Oct;216(Pt 1):49-51.
>http://www.ncbi.nlm.nih.gov/pubmed/15369482
>
>Doug
>
>^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
>Douglas W. Cromey, M.S. - Associate Scientific Investigator
>Dept. of Cellular & Molecular Medicine, University of Arizona
>1501 N. Campbell Ave, Tucson, AZ  85724-5044 USA
>
>office:  AHSC 4212         email: [hidden email]
>voice:  520-626-2824       fax:  520-626-2097
>
>http://swehsc.pharmacy.arizona.edu/exppath/
>Home of: "Microscopy and Imaging Resources on the WWW"
>
>
>-----Original Message-----
>From: Confocal Microscopy List
>[mailto:[hidden email]] On
>Behalf Of Steffen Dietzel
>Sent: Thursday, October 04, 2012 7:30 AM
>To: [hidden email]
>Subject: Re: Oil vs water objectives
>
>*****
>To join, leave or search the confocal microscopy listserv, go to:
>http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
>*****
>
>I second Michael's comment.
>
>Apart from that, when you have an aqueous(!)
>preparation, spherical aberration decreases
>image quality faster for the oil objective. So,
>directly behind the coverslip the oil objective
>(1.4) will give you the better image due to the
>higher NA, at some depth both objectives will
>give you similar quality and beyond that, the
>water immersion will be better.
>
>I seem to remember that for oil 1.4 and water 1.2 the crossing point is
>10-20 µm into the sample.
>
>If you have the Handbook laying around, check
>the chapter on Lens aberrations. Chapter 20 by
>Hell and Stelzer in the second edition, chapter
>20 by Egner and Hell in the 3rd edition.
>
>Needles to say that all above considerations
>assume that both objectives have the same
>transparency for excitation and emission
>wavelengths - which they probably don't. So we
>are back at Michael's comment: You've got to
>test it. Beads attached to the coverslip and the
>slide (various preparations with various
>distances between the two) give good test
>objects.
>
>Steffen
>
>On 04.10.2012 15:15, Gabriel Lapointe wrote:
>>  *****
>>  To join, leave or search the confocal microscopy listserv, go to:
>>  http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
>>  *****
>>
>>  Hi,
>>
>>  I have a user who insist that using a 1,27NA water immersion objective
>>  is brighter and would give better images than using a 1,4NA oil
>>  immersion. I understand that deeper into the media that would be true.
>>  But, in that particular case, we are talking about imaging GFP at less
>>  than 100 micron away with a spinning disk.
>>
>>  So, I was wondering at which distance from the coverslips do we start
>>  seeing benefits of using a water immersion objective over an oil
>>  objective in aqueous media.
>>
>>  Thanks for your help.
>>
>>  Sincerely
>>  *Gabriel Lapointe, M.Sc.*
>  > Lab Manager / Microscopy Specialist
>>  Concordia University, Biology Department
>>  7141 Sherbrooke St. West SP 534
>>  Montréal QC H4B 1R6 Canada
>>  [hidden email]
>>  cmac.concordia.ca
>>  http://gabriellapointe.ca
>>
>
>
>--
>------------------------------------------------------------
>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

> *****
>  To join, leave or search the confocal microscopy listserv, go to:
>  
>  *****
>  
>  Hi,
>  
>  I have a user who insist that using a 1,27NA water immersion
> objective is
>  brighter and would give better images than using a 1,4NA oil
> immersion. I
>  understand that deeper into the media that would be true. But, in that
>  particular case, we are talking about imaging GFP at less than 100 micron
>  away with a spinning disk.
>  
>  So, I was wondering at which distance from the coverslips do we start
>  seeing benefits of using a water immersion objective over an oil objective
>  in aqueous media.
>  
>  Thanks for your help.
>  
>  Sincerely
>  *Gabriel Lapointe, M.Sc.*
>  Lab Manager / Microscopy Specialist
>  Concordia University, Biology Department
>  7141 Sherbrooke St. West SP 534
>  Montréal QC H4B 1R6 Canada
>  [hidden email]
>  cmac.concordia.ca
>  

> *****
> To join, leave or search the confocal microscopy listserv, go to:
> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
> *****
>
> Nobody seems to have mentioned so far that the NA of an oil objective will NOT be 1.4 if it is imaging a sample in water.  The maximum it can be is 1.33 - the refractive index of water.  Anything over this will be beyond the critical angle and rays will not reach the specimen (in excitation) or the objective (in emission).  So the oil objective has little or no advantage in NA and as Scot pointed out, the spherical aberration becomes horrendous very rapidly.  So Gabriel's user is quite right.  Actually I'd be surprised if you could see anything 100µm (0.1mm) into water with the oil lens.
>
> So why do some people say they do better with an oil lens when imaging very close to the coverslip?  The suggestion has been made in this list that they are seeing evanescent wave enhancement of fluorescence, and it seems highly believable to me.  Those rays between NA 1.33 and 1.4 cannot reach the sample in the far field, but their evanescent wave can give a TIRF image, and we see this superimposed on the regular far-field image.    
>
> There is one further caveat, which Mark hinted at.  If this is a Yokogawa spinning disk system it is designed for a 100x objective, and if used with 60x both pinhole size and pupil filling will not be optimal.  But 100x water immersion objectives are rare beasts.  (Apparently there are design constraints which prevent a Yokogawa head being optimised for a 60x objective).
>
>                                                                    Guy
>
> -----Original Message-----
> From: Confocal Microscopy List [mailto:[hidden email]] On Behalf Of Scot C Kuo
> Sent: Friday, 5 October 2012 2:35 AM
> To: [hidden email]
> Subject: Re: Oil vs water objectives
>
> *****
> To join, leave or search the confocal microscopy listserv, go to:
> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
> *****
>
> I've measured it quantitatively and the performance difference flips surprisingly close to the coverslip (see supplemental info, Fisher & Kuo 2009 PNAS 106, 133-138).  For an Olympus 60x U-PlanApoS lenses, comparing 1.2 and 1.4 NA, the flip happens ~8 microns into an aqueous sample.  For fluorescence closer than ~8um, oil is brighter, whereas for objects further, water immersion is brighter.  If lenses aren't matched, then the cross-over can happen elsewhere, but the relative shapes of the curves are the same.  Oil lenses (1.4NA) will have half the brightness by ~50um.
>
> For the information you've provided (higher NA on water lens), I'd expect the cross-over to be closer to the coverslip surface.
>
> -- Scot
>
> ============================================================================
> ...............Scot C. Kuo (410) 955-4536; email:[hidden email]...............
> ...Director, Microscope Facility, JHU-SOM, www.hopkinsmedicine.org/micfac...
> ..Assoc Professor, Biomedical Engineering & Cell Biology, www.jhu.edu/cmml..
>
>
> ----- Original Message -----
> From: Gabriel Lapointe <[hidden email]>
> Date: Thursday, October 4, 2012 9:16 am
> Subject: [CONFOCALMICROSCOPY] Oil vs water objectives
> To: [hidden email]
>
>
>> *****
>> To join, leave or search the confocal microscopy listserv, go to:
>>
>> *****
>>
>> Hi,
>>
>> I have a user who insist that using a 1,27NA water immersion
>> objective is
>> brighter and would give better images than using a 1,4NA oil
>> immersion. I
>> understand that deeper into the media that would be true. But, in that
>> particular case, we are talking about imaging GFP at less than 100 micron
>> away with a spinning disk.
>>
>> So, I was wondering at which distance from the coverslips do we start
>> seeing benefits of using a water immersion objective over an oil objective
>> in aqueous media.
>>
>> Thanks for your help.
>>
>> Sincerely
>> *Gabriel Lapointe, M.Sc.*
>> Lab Manager / Microscopy Specialist
>> Concordia University, Biology Department
>> 7141 Sherbrooke St. West SP 534
>> Montréal QC H4B 1R6 Canada
>> [hidden email]
>> cmac.concordia.ca
>>

>*****
>To join, leave or search the confocal microscopy listserv, go to:
>http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
>*****
>
>Just to add to Guy's last point, I recently read
>an interesting paper by Thomas Burghardt which
>thoroughly investigated the effect he just
>described (about evanescent wave enhancement
>near the coverslip):
>
>Burghardt, T.P., Evanescent field shapes
>excitation profile under axial epi-illumination.
>Journal of Biomedical Optics, 2012. 17(6).
>
>Here is a section in the discussion that I think fits your description, Guy:
>
>"The highest NA objectives available are TIRF
>objectives for through-the-objective total
>internal reflection because they achieve
>excitation incidence angles beyond critical
>angle for the glass/ aqueous interface.
>Generally, TIRF or epi-illumination excitations
>pertain to evanescent or propagating field
>microscopies that are appropriate for different
>applications. I show here that the TIRF
>objective under common axial epi-illumination
>conditions produces an evanescent field that
>favorably remodels the excitation volume for
>samples near the coverslip.
>
>Point source fluorescent spheres were imaged
>from a region where the excitation evanescent
>field contributes to excitation and from a
>region where the evanescent field is necessarily
>absent. To do so, I constructed a microfluidic
>PDMS spacer that separates two glass coverslips
>(Fig. 1). The lower coverslip optically contacts
>the oil immersion objective whereas the upper
>coverslip has an intervening 20um-thick slab of
>water. The 100um objective working distance
>ensures that either object can be brought into
>focus by vertical movement of the objective.
>Objects at the lower coverslip are subjected to
>both evanescent and propagating exciting fields
>whereas objects at the upper coverslip feel only
>the propagating field. Figure 7 shows a one-beam
>intensity profile measured by axial translation
>of the objective over 1500 nm, indicating the
>narrowing effect of the evanescent field.
>Profile computation agrees with observation.
>Figure 5 indicates the expected half-width
>remodeling of the axial dependence for exciting
>light as a function of probe position relative
>to the lower coverslip interface. I also
>observed a 2- to 4-fold intensity enhancement
>for the fluorescent sphere at the lower
>coverslip that is attributable to the
>discontinuous enhancement of the exciting normal
>electric field on the aqueous side at the lower
>coverslip, the selective collection of
>near-field emission from a sphere at the lower
>coverslip, and the effect of light scattering in
>the intervening water layer on both exciting and
>emission light for the sphere at the upper
>coverslip. Other effects may be significant,
>including the presence of the aqueous/glass
>interface at the upper coverslip...
>
>... evanescent excitation contributes to
>observed fluorescence whenever a TIRF objective
>is used and suggests that the sample material
>nearest the coverslip disproportionally
>contributes to the observed fluorescence signal."
>
>To this point I would add that even a 1.4 NA oil
>immersion objective is technically a TIRF
>objective since even this NA subtends (just
>barely) an angle greater than the glass-water
>interface critical angle.
>
>Cheers,
>
>John Oreopoulos
>Research Assistant
>Spectral Applied Research
>Richmond Hill, Ontario
>Canada
>www.spectral.ca
>
>
>On 2012-10-04, at 8:40 PM, Guy Cox wrote:
>
>>  *****
>>  To join, leave or search the confocal microscopy listserv, go to:
>>  http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
>>  *****
>>
>>  Nobody seems to have mentioned so far that the
>>NA of an oil objective will NOT be 1.4 if it is
>>imaging a sample in water.  The maximum it can
>>be is 1.33 - the refractive index of water.
>>Anything over this will be beyond the critical
>>angle and rays will not reach the specimen (in
>>excitation) or the objective (in emission).  So
>>the oil objective has little or no advantage in
>>NA and as Scot pointed out, the spherical
>>aberration becomes horrendous very rapidly.  So
>>Gabriel's user is quite right.  Actually I'd be
>>surprised if you could see anything 100µm
>>(0.1mm) into water with the oil lens.
>>
>>  So why do some people say they do better with
>>an oil lens when imaging very close to the
>>coverslip?  The suggestion has been made in
>>this list that they are seeing evanescent wave
>>enhancement of fluorescence, and it seems
>>highly believable to me.  Those rays between NA
>>1.33 and 1.4 cannot reach the sample in the far
>>field, but their evanescent wave can give a
>>TIRF image, and we see this superimposed on the
>>regular far-field image.
>>
>>  There is one further caveat, which Mark hinted
>>at.  If this is a Yokogawa spinning disk system
>>it is designed for a 100x objective, and if
>>used with 60x both pinhole size and pupil
>>filling will not be optimal.  But 100x water
>>immersion objectives are rare beasts.
>>(Apparently there are design constraints which
>>prevent a Yokogawa head being optimised for a
>>60x objective).
>>
>>                                                                     Guy
>>
>>  -----Original Message-----
>>  From: Confocal Microscopy List
>>[mailto:[hidden email]] On
>>Behalf Of Scot C Kuo
>>  Sent: Friday, 5 October 2012 2:35 AM
>>  To: [hidden email]
>>  Subject: Re: Oil vs water objectives
>>
>>  *****
>>  To join, leave or search the confocal microscopy listserv, go to:
>>  http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
>>  *****
>>
>>  I've measured it quantitatively and the
>>performance difference flips surprisingly close
>>to the coverslip (see supplemental info, Fisher
>>& Kuo 2009 PNAS 106, 133-138).  For an Olympus
>>60x U-PlanApoS lenses, comparing 1.2 and 1.4
>>NA, the flip happens ~8 microns into an aqueous
>>sample.  For fluorescence closer than ~8um, oil
>>is brighter, whereas for objects further, water
>>immersion is brighter.  If lenses aren't
>>matched, then the cross-over can happen
>>elsewhere, but the relative shapes of the
>>curves are the same.  Oil lenses (1.4NA) will
>>have half the brightness by ~50um.
>>
>>  For the information you've provided (higher NA
>>on water lens), I'd expect the cross-over to be
>>closer to the coverslip surface.
>>
>>  -- Scot
>>
>>  ============================================================================
>>  ...............Scot C. Kuo (410) 955-4536; email:[hidden email]...............
>>  ...Director, Microscope Facility, JHU-SOM, www.hopkinsmedicine.org/micfac...
>>  ..Assoc Professor, Biomedical Engineering & Cell Biology, www.jhu.edu/cmml..
>>
>>
>>  ----- Original Message -----
>>  From: Gabriel Lapointe <[hidden email]>
>>  Date: Thursday, October 4, 2012 9:16 am
>>  Subject: [CONFOCALMICROSCOPY] Oil vs water objectives
>>  To: [hidden email]
>>
>>
>>>  *****
>>>  To join, leave or search the confocal microscopy listserv, go to:
>>>
>>>  *****
>>>
>>>  Hi,
>>>
>>>  I have a user who insist that using a 1,27NA water immersion
>>>  objective is
>>>  brighter and would give better images than using a 1,4NA oil
>  >> immersion. I
>>>  understand that deeper into the media that would be true. But, in that
>>>  particular case, we are talking about imaging GFP at less than 100 micron
>  >> away with a spinning disk.
>>>
>>>  So, I was wondering at which distance from the coverslips do we start
>>>  seeing benefits of using a water immersion objective over an oil objective
>>>  in aqueous media.
>>>
>>>  Thanks for your help.
>>>
>>>  Sincerely
>>>  *Gabriel Lapointe, M.Sc.*
>>>  Lab Manager / Microscopy Specialist
>>>  Concordia University, Biology Department
>>>  7141 Sherbrooke St. West SP 534
>>>  Montréal QC H4B 1R6 Canada
>>>  [hidden email]
>>>  cmac.concordia.ca
>>>

> *****
> To join, leave or search the confocal microscopy listserv, go to:
> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
> *****
>
> Hi all,
>
> Looks like you have received a lot of good advice, but I would like to
> add one thing.
>
> Yes, do a test BUT don't forget to be very careful in adjusting the SA
> correction collar on the water lens. )Find a point object: focus up
> and down and adjust for symmetry (i.e., for the same image a little
> above focus as a little below focus. DON'T just try to "make it
> sharper!" The collar changes the focus plane.)
>
> The collars usually have markings in terms of the coverslip thickness
> that they are designed to correct for. One can easily see the
> difference created by mis-adjusting a 1.2 NA objective by 2
> µm-of-glass-replaced-by-water (my favorite unit for "measuring" SA).
>
> When modern water objectives first emerged in the early 1990s, many
> folk bought them and then went back to their oil objectives and I am
> convinced that it was because they just didn't want to take the time
> to adjust the collar properly.
>
> Because, if you do adjust it properly, you will get better (brighter?
> higher resolution?) images of aqeous specimens beyond about 3 µm
>
> Best,
>
> Jim Pawley,
>
> Near Harbin, China.
>
>
>
>> Make sure the coverslip is orthogonal to the image axis with your
>> water objective.
>>
>> A common aberration with water-immersion objective lenses.
>> J Microsc. 2004 Oct;216(Pt 1):49-51.
>> http://www.ncbi.nlm.nih.gov/pubmed/15369482
>>
>> Doug
>>
>> ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
>> Douglas W. Cromey, M.S. - Associate Scientific Investigator
>> Dept. of Cellular & Molecular Medicine, University of Arizona
>> 1501 N. Campbell Ave, Tucson, AZ  85724-5044 USA
>>
>> office:  AHSC 4212         email: [hidden email]
>> voice:  520-626-2824       fax:  520-626-2097
>>
>> http://swehsc.pharmacy.arizona.edu/exppath/
>> Home of: "Microscopy and Imaging Resources on the WWW"
>>
>>
>> -----Original Message-----
>> From: Confocal Microscopy List
>> [mailto:[hidden email]] On Behalf Of Steffen Dietzel
>> Sent: Thursday, October 04, 2012 7:30 AM
>> To: [hidden email]
>> Subject: Re: Oil vs water objectives
>>
>> *****
>> To join, leave or search the confocal microscopy listserv, go to:
>> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
>> *****
>>
>> I second Michael's comment.
>>
>> Apart from that, when you have an aqueous(!) preparation, spherical
>> aberration decreases image quality faster for the oil objective. So,
>> directly behind the coverslip the oil objective (1.4) will give you
>> the better image due to the higher NA, at some depth both objectives
>> will give you similar quality and beyond that, the water immersion
>> will be better.
>>
>> I seem to remember that for oil 1.4 and water 1.2 the crossing point is
>> 10-20 µm into the sample.
>>
>> If you have the Handbook laying around, check the chapter on Lens
>> aberrations. Chapter 20 by Hell and Stelzer in the second edition,
>> chapter 20 by Egner and Hell in the 3rd edition.
>>
>> Needles to say that all above considerations assume that both
>> objectives have the same transparency for excitation and emission
>> wavelengths - which they probably don't. So we are back at Michael's
>> comment: You've got to test it. Beads attached to the coverslip and
>> the slide (various preparations with various distances between the
>> two) give good test objects.
>>
>> Steffen
>>
>> On 04.10.2012 15:15, Gabriel Lapointe wrote:
>>>  *****
>>>  To join, leave or search the confocal microscopy listserv, go to:
>>>  http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
>>>  *****
>>>
>>>  Hi,
>>>
>>>  I have a user who insist that using a 1,27NA water immersion objective
>>>  is brighter and would give better images than using a 1,4NA oil
>>>  immersion. I understand that deeper into the media that would be true.
>>>  But, in that particular case, we are talking about imaging GFP at less
>>>  than 100 micron away with a spinning disk.
>>>
>>>  So, I was wondering at which distance from the coverslips do we start
>>>  seeing benefits of using a water immersion objective over an oil
>>>  objective in aqueous media.
>>>
>>>  Thanks for your help.
>>>
>>>  Sincerely
>>>  *Gabriel Lapointe, M.Sc.*
>> > Lab Manager / Microscopy Specialist
>>>  Concordia University, Biology Department
>>>  7141 Sherbrooke St. West SP 534
>>>  Montréal QC H4B 1R6 Canada
>>>  [hidden email]
>>>  cmac.concordia.ca
>>>  http://gabriellapointe.ca
>>>
>>
>>
>> --
>> ------------------------------------------------------------
>> 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
>
>

> *****
> To join, leave or search the confocal microscopy listserv, go to:
> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
> *****
>
> Hi all,
>
> Looks like you have received a lot of good advice, but I would like to
> add one thing.
>
> Yes, do a test BUT don't forget to be very careful in adjusting the SA
> correction collar on the water lens. )Find a point object: focus up
> and down and adjust for symmetry (i.e., for the same image a little
> above focus as a little below focus. DON'T just try to "make it
> sharper!" The collar changes the focus plane.)
>
> The collars usually have markings in terms of the coverslip thickness
> that they are designed to correct for. One can easily see the
> difference created by mis-adjusting a 1.2 NA objective by 2
> µm-of-glass-replaced-by-water (my favorite unit for "measuring" SA).
>
> When modern water objectives first emerged in the early 1990s, many
> folk bought them and then went back to their oil objectives and I am
> convinced that it was because they just didn't want to take the time
> to adjust the collar properly.
>
> Because, if you do adjust it properly, you will get better (brighter?
> higher resolution?) images of aqeous specimens beyond about 3 µm
>
> Best,
>
> Jim Pawley,
>
> Near Harbin, China.
>
>
>
>> Make sure the coverslip is orthogonal to the image axis with your
>> water objective.
>>
>> A common aberration with water-immersion objective lenses.
>> J Microsc. 2004 Oct;216(Pt 1):49-51.
>> http://www.ncbi.nlm.nih.gov/pubmed/15369482
>>
>> Doug
>>
>> ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
>> Douglas W. Cromey, M.S. - Associate Scientific Investigator Dept. of
>> Cellular & Molecular Medicine, University of Arizona
>> 1501 N. Campbell Ave, Tucson, AZ  85724-5044 USA
>>
>> office:  AHSC 4212         email: [hidden email]
>> voice:  520-626-2824       fax:  520-626-2097
>>
>> http://swehsc.pharmacy.arizona.edu/exppath/
>> Home of: "Microscopy and Imaging Resources on the WWW"
>>
>>
>> -----Original Message-----
>> From: Confocal Microscopy List
>> [mailto:[hidden email]] On Behalf Of Steffen
>> Dietzel
>> Sent: Thursday, October 04, 2012 7:30 AM
>> To: [hidden email]
>> Subject: Re: Oil vs water objectives
>>
>> *****
>> To join, leave or search the confocal microscopy listserv, go to:
>> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
>> *****
>>
>> I second Michael's comment.
>>
>> Apart from that, when you have an aqueous(!) preparation, spherical
>> aberration decreases image quality faster for the oil objective. So,
>> directly behind the coverslip the oil objective (1.4) will give you
>> the better image due to the higher NA, at some depth both objectives
>> will give you similar quality and beyond that, the water immersion
>> will be better.
>>
>> I seem to remember that for oil 1.4 and water 1.2 the crossing point
>> is
>> 10-20 µm into the sample.
>>
>> If you have the Handbook laying around, check the chapter on Lens
>> aberrations. Chapter 20 by Hell and Stelzer in the second edition,
>> chapter 20 by Egner and Hell in the 3rd edition.
>>
>> Needles to say that all above considerations assume that both
>> objectives have the same transparency for excitation and emission
>> wavelengths - which they probably don't. So we are back at Michael's
>> comment: You've got to test it. Beads attached to the coverslip and
>> the slide (various preparations with various distances between the
>> two) give good test objects.
>>
>> Steffen
>>
>> On 04.10.2012 15:15, Gabriel Lapointe wrote:
>>>  *****
>>>  To join, leave or search the confocal microscopy listserv, go to:
>>>  http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
>>>  *****
>>>
>>>  Hi,
>>>
>>>  I have a user who insist that using a 1,27NA water immersion
>>> objective  is brighter and would give better images than using a
>>> 1,4NA oil  immersion. I understand that deeper into the media that would be true.
>>>  But, in that particular case, we are talking about imaging GFP at
>>> less  than 100 micron away with a spinning disk.
>>>
>>>  So, I was wondering at which distance from the coverslips do we
>>> start  seeing benefits of using a water immersion objective over an
>>> oil  objective in aqueous media.
>>>
>>>  Thanks for your help.
>>>
>>>  Sincerely
>>>  *Gabriel Lapointe, M.Sc.*
>> > Lab Manager / Microscopy Specialist
>>>  Concordia University, Biology Department
>>>  7141 Sherbrooke St. West SP 534
>>>  Montréal QC H4B 1R6 Canada
>>>  [hidden email]
>>>  cmac.concordia.ca
>>>  http://gabriellapointe.ca
>>>
>>
>>
>> --
>> ------------------------------------------------------------
>> 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
>
>

> *****
> To join, leave or search the confocal microscopy listserv, go to:
> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
> *****
>
> Hi all,
>
> Looks like you have received a lot of good advice, but I would like to
> add one thing.
>
> Yes, do a test BUT don't forget to be very careful in adjusting the SA
> correction collar on the water lens. )Find a point object: focus up
> and down and adjust for symmetry (i.e., for the same image a little
> above focus as a little below focus. DON'T just try to "make it
> sharper!" The collar changes the focus plane.)
>
> The collars usually have markings in terms of the coverslip thickness
> that they are designed to correct for. One can easily see the
> difference created by mis-adjusting a 1.2 NA objective by 2
> µm-of-glass-replaced-by-water (my favorite unit for "measuring" SA).
>
> When modern water objectives first emerged in the early 1990s, many
> folk bought them and then went back to their oil objectives and I am
> convinced that it was because they just didn't want to take the time
> to adjust the collar properly.
>
> Because, if you do adjust it properly, you will get better (brighter?
> higher resolution?) images of aqeous specimens beyond about 3 µm
>
> Best,
>
> Jim Pawley,
>
> Near Harbin, China.
>
>
>
>> Make sure the coverslip is orthogonal to the image axis with your
>> water objective.
>>
>> A common aberration with water-immersion objective lenses.
>> J Microsc. 2004 Oct;216(Pt 1):49-51.
>> http://www.ncbi.nlm.nih.gov/pubmed/15369482
>>
>> Doug
>>
>> ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
>> Douglas W. Cromey, M.S. - Associate Scientific Investigator Dept. of
>> Cellular & Molecular Medicine, University of Arizona
>> 1501 N. Campbell Ave, Tucson, AZ  85724-5044 USA
>>
>> office:  AHSC 4212         email: [hidden email]
>> voice:  520-626-2824       fax:  520-626-2097
>>
>> http://swehsc.pharmacy.arizona.edu/exppath/
>> Home of: "Microscopy and Imaging Resources on the WWW"
>>
>>
>> -----Original Message-----
>> From: Confocal Microscopy List
>> [mailto:[hidden email]] On Behalf Of Steffen
>> Dietzel
>> Sent: Thursday, October 04, 2012 7:30 AM
>> To: [hidden email]
>> Subject: Re: Oil vs water objectives
>>
>> *****
>> To join, leave or search the confocal microscopy listserv, go to:
>> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
>> *****
>>
>> I second Michael's comment.
>>
>> Apart from that, when you have an aqueous(!) preparation, spherical
>> aberration decreases image quality faster for the oil objective. So,
>> directly behind the coverslip the oil objective (1.4) will give you
>> the better image due to the higher NA, at some depth both objectives
>> will give you similar quality and beyond that, the water immersion
>> will be better.
>>
>> I seem to remember that for oil 1.4 and water 1.2 the crossing point
>> is
>> 10-20 µm into the sample.
>>
>> If you have the Handbook laying around, check the chapter on Lens
>> aberrations. Chapter 20 by Hell and Stelzer in the second edition,
>> chapter 20 by Egner and Hell in the 3rd edition.
>>
>> Needles to say that all above considerations assume that both
>> objectives have the same transparency for excitation and emission
>> wavelengths - which they probably don't. So we are back at Michael's
>> comment: You've got to test it. Beads attached to the coverslip and
>> the slide (various preparations with various distances between the
>> two) give good test objects.
>>
>> Steffen
>>
>> On 04.10.2012 15:15, Gabriel Lapointe wrote:
>>>  *****
>>>  To join, leave or search the confocal microscopy listserv, go to:
>>>  http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
>>>  *****
>>>
>>>  Hi,
>>>
>>>  I have a user who insist that using a 1,27NA water immersion
>>> objective  is brighter and would give better images than using a
>>> 1,4NA oil  immersion. I understand that deeper into the media that would be true.
>>>  But, in that particular case, we are talking about imaging GFP at
>>> less  than 100 micron away with a spinning disk.
>>>
>>>  So, I was wondering at which distance from the coverslips do we
>>> start  seeing benefits of using a water immersion objective over an
>>> oil  objective in aqueous media.
>>>
>>>  Thanks for your help.
>>>
>>>  Sincerely
>>>  *Gabriel Lapointe, M.Sc.*
>> > Lab Manager / Microscopy Specialist
>>>  Concordia University, Biology Department
>>>  7141 Sherbrooke St. West SP 534
>>>  Montréal QC H4B 1R6 Canada
>>>  [hidden email]
>>>  cmac.concordia.ca
>>>  http://gabriellapointe.ca
>>>
>>
>>
>> --
>> ------------------------------------------------------------
>> 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
>
>

>OK, so let's get into this in (minimal) depth.
>
>The reason an oil, or water, objective has a
>higher resolution than a water one is that the
>wavelength of light in oil, or water, is shorter
>than in air so resolution is automatically
>better.  However the homogeneous medium has to
>go all the way to the objective, otherwise the
>acceptance angle is reduced by the refractive
>index change - and since both effects depend
>directly on the refractive index the loss
>exactly cancels out the gain.  (See Chapter 1 of
>Optical Imaging Techniques in Cell Biology).
>
>Now if we have an oil immersion objective of
>(say) NA 1.0, it will still have that NA even
>imaging into water because the change in
>refractive index means that the lens can collect
>a wider angle and that will compensate exactly
>for the longer wavelength (as Steffen says).
>However this cosy relationship breaks down once
>we reach the critical angle, since rays leaving
>the sample in a downward direction are obviously
>never going to reach the objective.  Likewise,
>in confocal illumination, rays beyond the
>critical angle will experience total internal
>reflection and will never reach the sample.
>Therefore an oil immersion lens cannot have an
>NA of more than 1.33 when imaging into water,
>and every oil immersion lens of NA greater than
>1.33 will have an  effective NA of  1.33 when
>imaging into water.
>
>I don't want to write pages on this, but I think
>if you just draw it out with a pencil and paper
>it will be quite clear.  There is neither magic
>nor deep physics involved!
>
>                                                                Guy

>-----Original Message-----
>From: Confocal Microscopy List
>[mailto:[hidden email]] On
>Behalf Of Steffen Dietzel
>Sent: Friday, 5 October 2012 10:29 PM
>To: [hidden email]
>Subject: Re: Oil vs water objectives
>
>*****
>To join, leave or search the confocal microscopy listserv, go to:
>http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
>*****
>
>On 04.10.2012 18:20, Cammer, Michael wrote:
>>  Also, while people have generated various test samples of
>collagen and latex and acrylic and fat globules
>and glass beads and carrageen gum and dissolved
>Scotch tape glue etc., the only test sample that
>really answers the question is the sample itself.
>
>Again, I agree, in particular if you look at
>tissues with more or less unpredictable optical
>properties. Still, bead preparations allow to
>demonstrate the general effect very clearly and
>thus convincingly. They also allow
>quantification and sometimes hard numbers help
>to convince people. Some person might argue that
>they don't care about resolution since s/he is
>planning to use a 1 µm pixel size anyway. But
>you still can convince these people if you can
>show them that they will also loose a lot of
>intensity.
>I use such a demonstration to argue for the
>usage of 170 µm coverslips and a good embedding
>medium.
>
>On 05.10.2012 02:40, Guy Cox wrote:
>>  Nobody seems to have mentioned so far that the NA of an oil
>objective will NOT be 1.4 if it is imaging a sample in water.
>The maximum it can be is 1.33 - the refractive index of water.
>...
>>  So the oil objective has little or no advantage in NA
>
>Is that really true? If there is oil between the
>coverslip and the oil objective, but water
>immersion for the water objective, this should
>make a noticeable difference in effective
>acceptance angle, should it not?
>(Assuming the object is rather close to the coverslip).
>
>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

> *****
> To join, leave or search the confocal microscopy listserv, go to:
> http://lists.umn.edu/cgi-bin/wa?A0=confocalmicroscopy
> *****
>
> Hi Jim and listserv,
>
> Jim wrote, "I am convinced that it was because they just didn't want
> to take the time to adjust the collar properly. "
>
> An additional explanation is that the microscope vendors have done a
> poor job making critical microscope features - such as the correction
> collar - easy to reach and use. Of course the customer buying an
> anti-ergonomic microscope are also contributing to the problem.
>
> One solution of course is to "automate everything" - which simply
> changes the issue from being physically out of reach physically to one
> of budget.
>
> The vendors should be able to design microscopes - and nanoscopes -
> that have excellent ergonomics and optics, and customers should take
> the time to buy such microscopes.
>
> Another option with respect to S.A. is to move the correction outside
> the microscope, as with the mSAC
>
> https://www.intelligent-imaging.com/msac.php
>
> though this makes me wonder what happens if the mSAC is used with an
> objective lens whose "correction" collar is (badly) misadjusted.
>
> George
>