objective focal length

>I am confused with regard to the front focal length of objectives. I
>thought that the magnification of an infinity corrected objective
>will be the distance between the tube lens and the intermediate
>image, divided by the front focal length of the objective (which is
>where I expect the object to be). Since the objective is not really
>a thin lens, I can understand that the actual working distance may
>be less than the focal length, since the focal length may need to be
>measured from inside the objective casing.
>
>However, I have a paper that describes a 25x/NA=0.5 air objective,
>which has an 11mm working distance, as having a 25.1mm focal length,
>while the distance from the tube lens to the intermediate image is
>245mm. This has me confused, and I realize that I do not understand
>something fundamental here.
>
>So, I turn to the optics gurus on the list to clear this up, with
>many thanks in advance.
>
>--aryeh
>--
>Aryeh Weiss
>School of Engineering
>Bar Ilan University
>Ramat Gan 52900 Israel
>
>Ph:  972-3-5317638
>FAX: 972-3-7384050

> Hi Aryeh
>
> Maybe the tube lens is not the original one, so that the "25x" objective
> really functions as a 10x in this setup?
> Can you give us more info about the setup. A 25x/0.5 air objective with
> a 11mm WD must be pretty big...
>
> Beat
>
> At 09:20 28-11-2008, you wrote:
>> I am confused with regard to the front focal length of objectives. I
>> thought that the magnification of an infinity corrected objective will
>> be the distance between the tube lens and the intermediate image,
>> divided by the front focal length of the objective (which is where I
>> expect the object to be). Since the objective is not really a thin
>> lens, I can understand that the actual working distance may be less
>> than the focal length, since the focal length may need to be measured
>> from inside the objective casing.
>>
>> However, I have a paper that describes a 25x/NA=0.5 air objective,
>> which has an 11mm working distance, as having a 25.1mm focal length,
>> while the distance from the tube lens to the intermediate image is
>> 245mm. This has me confused, and I realize that I do not understand
>> something fundamental here.
>>
>> So, I turn to the optics gurus on the list to clear this up, with many
>> thanks in advance.
>>
>> --aryeh
>> --
>> Aryeh Weiss
>> School of Engineering
>> Bar Ilan University
>> Ramat Gan 52900 Israel
>>
>> Ph:  972-3-5317638
>> FAX: 972-3-7384050
>
>

> I am absolutely not an optics guru!
>
> But, as I understand it, an infinity corrected objective will form an image
> at 'infinity', so the distance from the principal plane to the object will be
> the focal length.  But where the image is formed after the tube lens will
> depend on the focal length of the tube lens and we have to know this to make
> any useful calculation.
>
> It was all so much simpler in the days of 160mm tube length!
>
> Guy
>
> -----Original Message----- From: Confocal Microscopy List
> [mailto:[hidden email]] On Behalf Of Aryeh Weiss Sent:
> Friday, 28 November 2008 7:20 PM To: [hidden email]
> Subject: objective focal length
>
> I am confused with regard to the front focal length of objectives. I thought
> that the magnification of an infinity corrected objective will be the
> distance between the tube lens and the intermediate image, divided by the
> front focal length of the objective (which is where I expect the object to
> be). Since the objective is not really a thin lens, I can understand that the
> actual working distance may be less than the focal length, since the focal
> length may need to be measured from inside the objective casing.
>
> However, I have a paper that describes a 25x/NA=0.5 air objective, which has
> an 11mm working distance, as having a 25.1mm focal length, while the distance
> from the tube lens to the intermediate image is 245mm. This has me confused,
> and I realize that I do not understand something fundamental here.
>
> So, I turn to the optics gurus on the list to clear this up, with many thanks
> in advance.
>
> --aryeh -- Aryeh Weiss School of Engineering Bar Ilan University Ramat Gan
> 52900 Israel
>
> Ph:  972-3-5317638 FAX: 972-3-7384050
>
>

> That is also how I understand it. So I assume that the distance between
> the tube
> lens and the intermediate image plane is the focal length of the tube lens.
>
> Best regards,
> --aryeh
>
> Guy Cox wrote:
>> I am absolutely not an optics guru!
>>
>> But, as I understand it, an infinity corrected objective will form an image
>> at 'infinity', so the distance from the principal plane to the  
>> object will be
>> the focal length.  But where the image is formed after the tube lens will
>> depend on the focal length of the tube lens and we have to know this to make
>> any useful calculation.
>>
>> It was all so much simpler in the days of 160mm tube length!
>>
>> Guy
>>
>> -----Original Message----- From: Confocal Microscopy List
>> [mailto:[hidden email]] On Behalf Of Aryeh Weiss Sent:
>> Friday, 28 November 2008 7:20 PM To:  
>> [hidden email] Subject: objective focal length
>>
>> I am confused with regard to the front focal length of objectives. I thought
>> that the magnification of an infinity corrected objective will be the
>> distance between the tube lens and the intermediate image, divided by the
>> front focal length of the objective (which is where I expect the object to
>> be). Since the objective is not really a thin lens, I can  
>> understand that the
>> actual working distance may be less than the focal length, since the focal
>> length may need to be measured from inside the objective casing.
>>
>> However, I have a paper that describes a 25x/NA=0.5 air objective, which has
>> an 11mm working distance, as having a 25.1mm focal length, while  
>> the distance
>> from the tube lens to the intermediate image is 245mm. This has me confused,
>> and I realize that I do not understand something fundamental here.
>>
>> So, I turn to the optics gurus on the list to clear this up, with  
>> many thanks
>> in advance.
>>
>> --aryeh -- Aryeh Weiss School of Engineering Bar Ilan University Ramat Gan
>> 52900 Israel
>>
>> Ph:  972-3-5317638 FAX: 972-3-7384050
>>
>>

> Dear Arey,
>
> Not being an expert I should say: if the tube lens forms an image at
> 245mm (=focal length) and if the lens magnification is 25x the objective
> should have a focal length of 9.8mm. The working distance is smaller
> than this, but is not directly predictable.
>
> However the magnifcation inscribed on the lens (25X) is dependent on a
> specific focal length of the tube lens. For Nikon objectives it is 200mm
> for Zeiss it is 164.5nmm. Probably this can be the point of confusion.
>
> Best regards
>
> Patrick
>
> Quoting Aryeh Weiss <[hidden email]>:
>
>> That is also how I understand it. So I assume that the distance between
>> the tube
>> lens and the intermediate image plane is the focal length of the tube
>> lens.
>>
>> Best regards,
>> --aryeh
>>
>> Guy Cox wrote:
>>> I am absolutely not an optics guru!
>>>
>>> But, as I understand it, an infinity corrected objective will form an
>>> image
>>> at 'infinity', so the distance from the principal plane to the  
>>> object will be
>>> the focal length.  But where the image is formed after the tube lens
>>> will
>>> depend on the focal length of the tube lens and we have to know this
>>> to make
>>> any useful calculation.
>>>
>>> It was all so much simpler in the days of 160mm tube length!
>>>
>>> Guy
>>>
>>> -----Original Message----- From: Confocal Microscopy List
>>> [mailto:[hidden email]] On Behalf Of Aryeh Weiss Sent:
>>> Friday, 28 November 2008 7:20 PM To:  
>>> [hidden email] Subject: objective focal length
>>>
>>> I am confused with regard to the front focal length of objectives. I
>>> thought
>>> that the magnification of an infinity corrected objective will be the
>>> distance between the tube lens and the intermediate image, divided by
>>> the
>>> front focal length of the objective (which is where I expect the
>>> object to
>>> be). Since the objective is not really a thin lens, I can  understand
>>> that the
>>> actual working distance may be less than the focal length, since the
>>> focal
>>> length may need to be measured from inside the objective casing.
>>>
>>> However, I have a paper that describes a 25x/NA=0.5 air objective,
>>> which has
>>> an 11mm working distance, as having a 25.1mm focal length, while  the
>>> distance
>>> from the tube lens to the intermediate image is 245mm. This has me
>>> confused,
>>> and I realize that I do not understand something fundamental here.
>>>
>>> So, I turn to the optics gurus on the list to clear this up, with  
>>> many thanks
>>> in advance.
>>>
>>> --aryeh -- Aryeh Weiss School of Engineering Bar Ilan University
>>> Ramat Gan
>>> 52900 Israel
>>>
>>> Ph:  972-3-5317638 FAX: 972-3-7384050
>>>
>>>
>
>
>

>Content-Transfer-Encoding: 7bit
>
>The problem is that an infinity corrected 25x lens with a 25mm focal
>length should require a tube lens with a 625mm focal length (25x25).
>Does such a microscope exist?
>
>--aryeh
>
>
>Patrick Van Oostveldt wrote:
>>Dear Arey,
>>Not being an expert I should say: if the tube lens forms an image
>>at 245mm (=focal length) and if the lens magnification is 25x the
>>objective should have a focal length of 9.8mm. The working distance
>>is smaller than this, but is not directly predictable.
>>However the magnifcation inscribed on the lens (25X) is dependent
>>on a specific focal length of the tube lens. For Nikon objectives
>>it is 200mm for Zeiss it is 164.5nmm. Probably this can be the
>>point of confusion.
>>Best regards
>>Patrick
>>Quoting Aryeh Weiss <[hidden email]>:
>>
>>>That is also how I understand it. So I assume that the distance between
>>>the tube
>>>lens and the intermediate image plane is the focal length of the tube lens.
>>>
>>>Best regards,
>>>--aryeh
>>>
>>>Guy Cox wrote:
>>>>I am absolutely not an optics guru!
>>>>
>>>>But, as I understand it, an infinity corrected objective will form an image
>>>>at 'infinity', so the distance from the principal plane to the
>>>>object will be
>>>>the focal length.  But where the image is formed after the tube lens will
>>>>depend on the focal length of the tube lens and we have to know
>>>>this to make
>>>>any useful calculation.
>>>>
>>>>It was all so much simpler in the days of 160mm tube length!
>>>>
>>>>Guy
>>>>
>>>>-----Original Message----- From: Confocal Microscopy List
>>>>[mailto:[hidden email]] On Behalf Of Aryeh Weiss Sent:
>>>>Friday, 28 November 2008 7:20 PM To:
>>>>[hidden email] Subject: objective focal length
>>>>
>>>>I am confused with regard to the front focal length of
>>>>objectives. I thought
>>>>that the magnification of an infinity corrected objective will be the
>>>>distance between the tube lens and the intermediate image, divided by the
>>>>front focal length of the objective (which is where I expect the object to
>>>>be). Since the objective is not really a thin lens, I
>>>>can  understand that the
>>>>actual working distance may be less than the focal length, since the focal
>>>>length may need to be measured from inside the objective casing.
>>>>
>>>>However, I have a paper that describes a 25x/NA=0.5 air
>>>>objective, which has
>>>>an 11mm working distance, as having a 25.1mm focal length,
>>>>while  the distance
>>>>from the tube lens to the intermediate image is 245mm. This has
>>>>me confused,
>>>>and I realize that I do not understand something fundamental here.
>>>>
>>>>So, I turn to the optics gurus on the list to clear this up, with
>>>>many thanks
>>>>in advance.
>>>>
>>>>--aryeh -- Aryeh Weiss School of Engineering Bar Ilan University Ramat Gan
>>>>52900 Israel
>>>>
>>>>Ph:  972-3-5317638 FAX: 972-3-7384050
>>>>
>>
>
>
>--
>Aryeh Weiss
>School of Engineering
>Bar Ilan University
>Ramat Gan 52900 Israel
>
>Ph:  972-3-5317638
>FAX: 972-3-7384050

> The paper says it is a Zeiss Planachromat 25x/0.5 objective. I searched
> for such an objective and the only I found was the Zeiss Jena
> GF-Planachromat shown at
> http://cgi.ebay.de/Zeiss-Jena-GF-Planachromat-Phv-25x%2F0,50-Phako--neu-_W0QQitemZ380085053453QQcmdZViewItemQQimsxZ20081127?IMSfp=TL0811271110001r39141 
>
>
> It's easy to see by the diameter of the front lens (<5mm) alone that
> this objective cannot possibly have a working distance of 11m at an NA
> of 0.5. So it seems very likely that the specs given in the paper are
> simply wrong.
>
> Beat
>
>
>
> At 18:39 29-11-2008, Aryeh Weiss wrote:
>> Content-Transfer-Encoding: 7bit
>>
>> The problem is that an infinity corrected 25x lens with a 25mm focal
>> length should require a tube lens with a 625mm focal length (25x25).
>> Does such a microscope exist?
>>
>> --aryeh
>>
>>
>> Patrick Van Oostveldt wrote:
>>> Dear Arey,
>>> Not being an expert I should say: if the tube lens forms an image at
>>> 245mm (=focal length) and if the lens magnification is 25x the
>>> objective should have a focal length of 9.8mm. The working distance
>>> is smaller than this, but is not directly predictable.
>>> However the magnifcation inscribed on the lens (25X) is dependent on
>>> a specific focal length of the tube lens. For Nikon objectives it is
>>> 200mm for Zeiss it is 164.5nmm. Probably this can be the point of
>>> confusion.
>>> Best regards
>>> Patrick
>>> Quoting Aryeh Weiss <[hidden email]>:
>>>
>>>> That is also how I understand it. So I assume that the distance between
>>>> the tube
>>>> lens and the intermediate image plane is the focal length of the
>>>> tube lens.
>>>>
>>>> Best regards,
>>>> --aryeh
>>>>
>>>> Guy Cox wrote:
>>>>> I am absolutely not an optics guru!
>>>>>
>>>>> But, as I understand it, an infinity corrected objective will form
>>>>> an image
>>>>> at 'infinity', so the distance from the principal plane to the
>>>>> object will be
>>>>> the focal length.  But where the image is formed after the tube
>>>>> lens will
>>>>> depend on the focal length of the tube lens and we have to know
>>>>> this to make
>>>>> any useful calculation.
>>>>>
>>>>> It was all so much simpler in the days of 160mm tube length!
>>>>>
>>>>> Guy
>>>>>
>>>>> -----Original Message----- From: Confocal Microscopy List
>>>>> [mailto:[hidden email]] On Behalf Of Aryeh Weiss
>>>>> Sent:
>>>>> Friday, 28 November 2008 7:20 PM To:
>>>>> [hidden email] Subject: objective focal length
>>>>>
>>>>> I am confused with regard to the front focal length of objectives.
>>>>> I thought
>>>>> that the magnification of an infinity corrected objective will be the
>>>>> distance between the tube lens and the intermediate image, divided
>>>>> by the
>>>>> front focal length of the objective (which is where I expect the
>>>>> object to
>>>>> be). Since the objective is not really a thin lens, I can  
>>>>> understand that the
>>>>> actual working distance may be less than the focal length, since
>>>>> the focal
>>>>> length may need to be measured from inside the objective casing.
>>>>>
>>>>> However, I have a paper that describes a 25x/NA=0.5 air objective,
>>>>> which has
>>>>> an 11mm working distance, as having a 25.1mm focal length, while  
>>>>> the distance
>>>>> from the tube lens to the intermediate image is 245mm. This has me
>>>>> confused,
>>>>> and I realize that I do not understand something fundamental here.
>>>>>
>>>>> So, I turn to the optics gurus on the list to clear this up, with
>>>>> many thanks
>>>>> in advance.
>>>>>
>>>>> --aryeh -- Aryeh Weiss School of Engineering Bar Ilan University
>>>>> Ramat Gan
>>>>> 52900 Israel
>>>>>
>>>>> Ph:  972-3-5317638 FAX: 972-3-7384050
>>>>>
>>>
>>
>>
>> --
>> Aryeh Weiss
>> School of Engineering
>> Bar Ilan University
>> Ramat Gan 52900 Israel
>>
>> Ph:  972-3-5317638
>> FAX: 972-3-7384050
>
>