Patent: Canon EF 28-560mm f/2.8-5.6

[Loswr]

Playing devil's advocate... the MP-E maybe?

You devil you!

But no, the MP-E 65 doesn't break any laws of optics either. This is the best image I could find of one from the front. If the outer two lines are 58mm apart, which they should be close to, then the inner lines are 24mm apart, 65mm / f2.8 = 23.2.

Not to encourage sympathy for the devil, but your careful estimate based on an image from the Internet notwithstanding, empirically measuring my own MP-E 65mm shows that the front element diameter is ~19.5mm.

 

[privatebydesign]

Playing devil's advocate... the MP-E maybe?

You devil you!

But no, the MP-E 65 doesn't break any laws of optics either. This is the best image I could find of one from the front. If the outer two lines are 58mm apart, which they should be close to, then the inner lines are 24mm apart, 65mm / f2.8 = 23.2.

Not to encourage sympathy for the devil, but your careful estimate based on an image from the Internet notwithstanding, empirically measuring my own MP-E 65mm shows that the front element diameter is ~19.5mm.

Interesting, and thanks for the actual measurement.

Which leads us to conclude that either Canon have broken the laws of optics and kept it very quiet, or the MP-E65 isn't a true 65mm and f2.8.

Personally I believe the latter

 

[hne]

Care to elaborate on that? What lens, how did you determine the entrance pupil size etc etc?

I will absolutely defer to the smarter in this regard. If I'm misunderstanding the phenomenon please let me know. If you set a lens with a 62mm front element wide open and stand "infinitely" far away and cannot see the edge of the entrance pupil looking down optical axis unless you angle off from the optical axis, does that mean that the entrance pupil is larger than the front element itself?

I'm really struggling to understand how a lens with a 92mm entrance pupil can have a front element that is only around 60mm in diameter given the geometry specified in the patent.

You can't put your camera " "infinitely" far away ". You can only measure the apparent entrance pupil size from the point of focus, in this case where the sensor would be.

I haven't seen the block diagram/patent but it isn't possible to have a 92mm entrance pupil and a 60mm front element.

Can you see an elephant while you're wearing glasses? The whole elephant at once through 30mm diameter lenses?

You can see an entrance pupil appearing 92mm in diameter through a 60mm front element if you depart from the thin lens assumption so you are able to place the aperture somewhere in-between the front element and the sensor and place yourself close enough to the front element.

So yes, the MP-E 65 can have a 19.5mm front element through which an entrance pupil seemingly 23.2mm wide can be seen, as long as you place your eye rather close to the front element and the aperture is placed some distance from the front element.

 

[scyrene]

Playing devil's advocate... the MP-E maybe?

You devil you!

But no, the MP-E 65 doesn't break any laws of optics either. This is the best image I could find of one from the front. If the outer two lines are 58mm apart, which they should be close to, then the inner lines are 24mm apart, 65mm / f2.8 = 23.2.

Not to encourage sympathy for the devil, but your careful estimate based on an image from the Internet notwithstanding, empirically measuring my own MP-E 65mm shows that the front element diameter is ~19.5mm.

Interesting, and thanks for the actual measurement.

Which leads us to conclude that either Canon have broken the laws of optics and kept it very quiet, or the MP-E65 isn't a true 65mm and f2.8.

Personally I believe the latter

Haha, if there's one lens guaranteed to muddy the waters... I'm sure you're right though I rather wonder what 65mm really means for a lens like this. I mean, normal lenses you can compare in terms of focal length and have an idea of field of view, and for macro lenses that still focus to infinity, the working distance at 1:1 . But this one is so odd, it seems redundant giving it a focal length designation (to me).

 

[Loswr]

Can you see an elephant while you're wearing glasses? The whole elephant at once through 30mm diameter lenses?

You can see an entrance pupil appearing 92mm in diameter through a 60mm front element if you depart from the thin lens assumption...

Ironic that your analogy much more closely approximates a thin lens. It's not relevant, though, given the position of eyeglasses in relation to the biological optics.

In this case, scyrene is looking in the right place – 'focal length' is the distance from the image plane to the apparent position of the entrance pupil when the lens is focused at infinity. The design of the MP-E precludes infinity focus, so the 65mm focal length is a theoretical not a real measurement, i.e. the FL would be 65mm if the lens could focus at infinity. It can't, so the actual focal length is shorter. Ignoring rounding of the aperture value, f/2.8 with a 19.5mm front element would be a max FL of 55mm. In fact, the actual FL with the focus racked out as far as possible is probably even shorter. As an example, the FL of the 100/2.8 Macro is 100mm focused at infinity, but ~67mm at 1:1.

 

[scyrene]

Can you see an elephant while you're wearing glasses? The whole elephant at once through 30mm diameter lenses?

You can see an entrance pupil appearing 92mm in diameter through a 60mm front element if you depart from the thin lens assumption...

Ironic that your analogy much more closely approximates a thin lens. It's not relevant, though, given the position of eyeglasses in relation to the biological optics.

In this case, scyrene is looking in the right place – 'focal length' is the distance from the image plane to the apparent position of the entrance pupil when the lens is focused at infinity. The design of the MP-E precludes infinity focus, so the 65mm focal length is a theoretical not a real measurement, i.e. the FL would be 65mm if the lens could focus at infinity. It can't, so the actual focal length is shorter. Ignoring rounding of the aperture value, f/2.8 with a 19.5mm front element would be a max FL of 55mm. In fact, the actual FL with the focus racked out as far as possible is probably even shorter. As an example, the FL of the 100/2.8 Macro is 100mm focused at infinity, but ~67mm at 1:1.

Eureka! This is very well explained, thanks

 

[Loswr]

Eureka! This is very well explained, thanks

Well, you know, it'd still be cool if Canon had figured out how to get around the laws of physics.

 

[East Wind Photography]

Eureka! This is very well explained, thanks

Well, you know, it'd still be cool if Canon had figured out how to get around the laws of physics.

They are trying with all of that blue stuff in the mix. I hear they are tinkering with dynamic lens elements that can change shape and FL when an electrical signal is applied.

 

[mb66energy]

Can you see an elephant while you're wearing glasses? The whole elephant at once through 30mm diameter lenses?

You can see an entrance pupil appearing 92mm in diameter through a 60mm front element if you depart from the thin lens assumption...

Ironic that your analogy much more closely approximates a thin lens. It's not relevant, though, given the position of eyeglasses in relation to the biological optics.

In this case, scyrene is looking in the right place – 'focal length' is the distance from the image plane to the apparent position of the entrance pupil when the lens is focused at infinity. The design of the MP-E precludes infinity focus, so the 65mm focal length is a theoretical not a real measurement, i.e. the FL would be 65mm if the lens could focus at infinity. It can't, so the actual focal length is shorter. Ignoring rounding of the aperture value, f/2.8 with a 19.5mm front element would be a max FL of 55mm. In fact, the actual FL with the focus racked out as far as possible is probably even shorter. As an example, the FL of the 100/2.8 Macro is 100mm focused at infinity, but ~67mm at 1:1.

How do you have measured the FL of the 100mm or do you have some source of people who measured the FL?

My internal conflict is: The EF 100 (non-IS) needs a 4 times increase of the exposure time between infinitity and 1:1 which is conformal to a lens(group) of 100mm FL over the whole focusing range. While the MP-E 65 is sth. like a zoom where zooming is used to focus.
I alway thought the EF 100 Macro and EF-S 60 Macro are lenses which shift principal planes optically to simulate the shifting of a 100mm lens (having a fixed lens arrangement).

Would be great to have some additional info about that - Best, Michael