Beautiful eyes …. fun with macro and ring flash

Written by Gary on September 21st, 2008

A few of my friends inspired me to start a fun mini project using my Olympus E510, ZD 50mm macro lens and Olympus ring flash.

Just set manual exposure to f/8, ISO 100, 1/180th sec, and set manual focus. Make sure the flash is set to TTL then rack out the lens to its closest focus. Then just move in and out until you have achieved focus … now this is a bit tricky given you have a subject that moves a little and your depth of field is very narrow still.

Here is a sample, … when Irish eyes are smiling 🙂

Irish eyes

For more beautiful eyes, see my little project on my website, in particular, the interesting distortion of the ring flash catchlight when photographing eyes with contact lenses on and those with subtle corneal distortions.

ps… not all are perfectly focused but my subjects would only tolerate a couple of tries, so I decided to accept a few less than perfect to thank them for volunteering.

also, these images have been cropped ~50% and resized for the web -use of the EC-20 2x teleconverter would enable images with minimal cropping.

 

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Has Canon lost the plot? Sensors, megapixels, optics

Written by Gary on September 20th, 2008

Canon’s latest releases include:

  • APS-C size 50D with 15mp = 38mp spatial resolution on a full frame
  • full frame 5DMII with 21mp
  • 1/1.7″ 5.7×7.6mm sensor (1/20th area of a full frame) G10 with 14.7mp = 292mp spatial resolution on a full frame!!

Is this megapixel madness or will these sensors really provide the resolution suggested by the number of megapixels and at what cost to image quality?

In analyzing this rather complicated issue, one should perhaps do a little bit of reading – check out the conclusions on Emil Martinec’s paper on noise, dynamic range, and bit depth of sensors.

Now, I’m not a mathematical expert, but his conclusions suggest:

  • at high ISO, bigger sensors (not just bigger photosites), yield better image quality in terms of signal:noise ratio, and dynamic range
  • at low ISO, small sensors and small photosites MAY perform better than large sensors in terms of signal:noise ratio – this is a little surprising to me but I must admit not being able to tell much difference at ISO 100 between my small sensor E510 images and my larger sensor Canon 1DMIII, so maybe there is some truth to this
  • resolution is independent of sensor size but relates to number of megapixels BUT limited by the limits of the optical system used

Thus, on the surface then, at low ISO, there is not a problem with using lots of megapixels in a small sensor, HOWEVER, the real issue then becomes the optical resolution, and there are several features of this that come into play:

  • diffraction limits – no matter how good a lens is, the laws of physics mandate that for a given wavelength of light, the best possible resolution is dependent on the aperture
    • Airy disc diffraction spot size in microns for green light = 1.3 x aperture f/ratio (approx) – see Roger Clarke.
    • your camera resolving power becomes limited by diffraction when your circle of confusion of your sensor (~2x pixel size in microns) becomes smaller than the Airy disc size
    • thus on a 50D with 4.7micron pixels, diffraction limitation occurs at (4.7×2/1.3) = f/7, ie. at f/8 or smaller apertures you will lose your maximum resolution such that at f/11, you maximum possible resolving power is more likely to be as if your sensor pixels were 7.2microns which on this sensor size, equates to more like 8mp, and thus you save a 15mp size file to achieve only 8mp detail.
    • see a calculator here
  • in reality, this theoretical diffraction limit to resolving power is not usually reached because of other factors:
    • camera shake – this is often THE NUMBER ONE issue that impairs resolution, making your $10,000 lens look like a $100 lens!
      • this is why I believe all cameras should have a built-in IS like most Olympus dSLRs – you can always turn it off if you don’t need it!
    • optical quality of the lens:
      • lenses usually are sharpest when stopped down 1-2 stops from maximum aperture
      • it is easier to make higher quality lenses at a similar price if they don’t need to cover as big an image circle – hence the very high resolution of lenses designed for Olympus Four Thirds which have resolutions some 3-5 times that made for 35mm film cameras
      • lenses designed for 35mm film cameras generally allow resolution of 10-16mp on a full frame dSLR and tend to be quite soft in the corners in particular
    • focus accuracy

Back to the original proposition:

The Canon 5D MII at 21mp is quite reasonable AS LONG as you use the highest quality lenses (the L primes and perhaps newer lenses as Canon makes them such as their new 24mm lens). Using other lenses are likely to only give 12-16mp detail in a file size of a 21mp image. I would have preferred the 5DMII to be 16mp which would be more optimised for current L lenses while giving better dynamic range and lower noise. In addition, at 16mp, it would have placed it nicely between the 10mp 1DMIII and the 21mp 1DsMIII.

  • If I had the money, I would still consider buying the 5D MII as it would complement my 1D MIII very nicely indeed, as being full frame, it would give me access to ultra wide which the 1D MIII can’t do, a different angle of view with my tilt shift lenses, and the increased resolution MAY be of use for landscape work, etc where very large highly detailed prints may be more readily possible – although I probably really only need 10mp.

The Canon 50D MAY prove to be OK BUT only with high quality lenses designed for digital, otherwise you are probably only going to get 10mp detail but in a file size of a 15mp image. Unfortunately at this pixel size (the same as for Olympus dSLRs), only Olympus have an adequate range of dedicated lenses to match this spatial resolution in dSLRs. I would probably choose a 40D over a 50D unless tests prove otherwise, and the Olympus E3 or the Nikon D300 over either.

  • since writing this post, another blogger has posted some comparisons which seem to show that the 40D images at high ISO appear to have more detail although more noise than the 50D, but if you really want low noise at high ISO, then the Nikon D3 (and presumably the D700) is far better than either the 40D or 50D

The Canon G10, I have grave doubts about its wisdom of having almost 15mp in such a small sensor!
For a start, as a result of its 1.7micron pixels, to get 15mp details with a perfect lens you must use apertures f/2.6 (1.7×2/1.3) or wider to account for diffraction limits and this means, even if its lens was perfect optically, you won’t get 15mp details from the lens as it is f/2.8-4.5 at its widest apertures. Indeed, if the lens were optically perfect, at f/4.5, the maximum detail possible would be for (4.5×1.3/2) = 2.9 micron pixels which equates to closer to a 6mp camera on this sensor size. In the process, the megapixel race means that Canon has foregone the opportunity to use larger photosites and gain improved dynamic range and less image noise. Personally, unless tests prove otherwise, I would prefer a 5-7mp camera in a sensor this size. See 6mpixel.org.

See Table 3 on this paper at Luminous Landscapes which shows the maximum resolving power of various sensor formats as limited by diffraction, in particular, at f/5.6:

  • full frame 35mm maximum = 60mp (29mp at f/8, 16mp at f/11, 7mp at f/16, 4mp at f/22, BUT remember most 35mm optics struggle to do 16-22mp, thus they are lens-limited at f/8 or wider)
  • APS-C maximum = 27mp (13mp at f/8 and 7mp at f/11, remember most lenses struggle to do 10-12mp on this sensor crop, thus, they too are lens limited at f/5.6 and wider)
  • Four Thirds maximum = 1/4 of full frame = 17mp (8mp at f/8, 4mp at f/11)
  • Canon G10 maximum = 1/20th of full frame = 3mp (6mp at f/4 and only 1.5mp at f/8!)

hmmm… sounds like an interesting project for someone to see if this is in fact true!

 

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Canon 5D MII announced at long last

Written by Gary on September 17th, 2008

Canon has finally announced specs for the long awaited upgrade to its entry level full frame dSLR camera, the 5D.

see dpreview.com’s preview

Essentially its a 21mp full frame (thus similar to the pro 1DsMIII) with some weather sealing, sensor dust removal, 3.9fps, live preview with contrast AF, quick AF, AF face detection and silent modes, as well as 1080p HD or VGA movies up to 4Gb, and a 3″ 920,000 dot LCD, auto-ISO selection mode at a list price of $US2699 for the body only.

It matches most of the features of the Nikon D700 full frame while upping the resolution ante to 21mp.

It gives comparable resolution to the new Sony A900 (25mp) full frame but with more features, and of course a broader range of accessories, in particular, lenses such as telephotos and tilt-shift.

And to top it off, it seems Canon is addressing some of its weaknesses by announcing a new EF 24mm f/1.4 lens which hopefully will go to some way to addressing its relative optical quality issues when compared to Nikon in the wide angle range of lenses.

Of course, unlike the Nikon D700, you cannot use lenses designed for cropped sensors (in the case of Canon, the EF-S lenses), but this should not be much of a loss anyway.

On paper, it seems like a winner, if you need a 21mp full frame dSLR.

 

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The battle of the full frame dSLRs

Written by Gary on September 13th, 2008

With Sony’s announcement this week of their expected 24.6mp full frame A900 dSLR (and presumably Nikon will follow suit with the same sensor in the near future), what is the likely future of the full frame (and APS-C and DX cropped sensor cameras)?

To understand this, one first needs to be cognizant of the resolution capability of lenses. Most lenses designed in the 35mm film days (and still are the majority of those used on Canon & Nikon dSLRs) only needed to provide ~14mp resolution on a full frame film.

With the advent of the 16.7mp Canon 1DsMII and then the 21mp 1DsMIII it became clear that even the Canon L zooms (the best Canon zooms) struggled to give edge to edge resolution on a full frame sensor at 16mp, and to make the most of these sensors one really needed to use high quality (preferably L quality) prime lenses.

Olympus realised this and its Four Thirds lenses have much greater resolution than OM film lenses in order to deal with the 2x crop Four Thirds sensor, and in addition they decided on a telecentric optic design to minimise vignetting which otherwise tends to occur with oblique light rays hitting microlenses on the sensor.

For most people 10mp images are adequate as they will allow up to 20″x30″ high quality prints, but there will be some who need more for larger prints or for professional purposes where clients demand higher resolutions.

The problem with bumping up the megapixels on a sensor is 5-fold: more noise at higher ISO, less dynamic range, more demands on the spatial resolution of lenses, larger file size on your memory cards and computer, and potentially slower burst rates with the larger file sizes.

Now from a lens point of view, it is pointless having a 15mp APS-C cropped sensor camera if your lens will only provide detail for a 10mp image on that sensor – you just end up making bigger files but no more detail. We saw this with many of the point and shoot cameras as they went up above 5mp.

Just to re-iterate, a 15mp APS-C sensor has the same spatial resolution of a 38mp full frame sensor and the same as a 10mp Four Thirds sensor, so you are going to need very high resolution lenses.

But the larger the sensor, the harder it is and the more expensive it is, to make high resolution lenses, so it will be interesting to see how the new Canon 50D really fares, or is the extra 5mp just going to be wasted space on your memory card or computer?

So if 10mp is probably the optimum resolution on cropped sensors when used with the current best lenses, 16mp is probably the optimum on full frame sensors UNLESS you use new high quality lenses designed for digital (such as the very nice new Nikon wide angle zoom), in which case 21-25mp may be useful.

One advantage of a 21-25mp full frame is that, assuming you have a lens with adequate resolution to match it, you can crop it to a 8-10mp image (ie. in effect use 1.5x digital zoom) to give 1.5x telephoto reach in effect. This means that a cropped sensor camera would become redundant as long as the burst rate of your full frame is adequate for your needs – and if the manufacturers did not mind cannibalising their cropped sensor market, they would allow their full frame cameras to function in cropped image mode at higher burst rates.

Of course, the main downsides of full frame are price (but this is coming down rapidly and won’t be so much of an issue), and size, weight.

I believe there will still be a place for the 10fps, low noise at high ISO, 10mp, 1.3x crop Canon 1DMIII for sports and action photography.

I have always held the view that there is not much future in the APS-C or DX formats – there is not much point buying dedicated lenses for these which have limited or no (as with Canon) role in use on the full frame cameras. Users of cropped sensor cameras are probably better off buying highest quality full frame lenses which can then be used on their cropped sensor dSLR as well as their full frame sensor dSLR, and eventually they won’t bother with their cropped sensor dSLR.

The problem with all this is that these outfits are big, heavy and expensive.

So in my view there is a big place for the Four Thirds system and Four Thirds Micro system with their smaller size, lighter bodies and lenses, longer telephoto reach and potentially innovative solutions which will be much more portable – after all, no matter how good your camera is, it won’t take a good photo if you don’t take it with you.

So where are we with the entry level full frame market place in 2008?

  • Nikon D700 – 12.1mp, 5-8fps, low noise, live preview but no CCD-shift IS
  • Sony A900 – 24.6mp, 5fps, CCD-shift IS but no live preview
  • Canon 5DMII – still to be announced, probably no CCD-shift IS
  • Nikon D??? – 24.6mp, 5fps, live preview but no CCD-shift IS?? maybe 2009
 

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Panasonic G1 – the 1st Micro Four Thirds dSLR

Written by Gary on September 12th, 2008

Panasonic have announced their 1st entry in the Micro Four Thirds dSLR system.

see DPreview.com G1

It seems they wanted to start their foray with a rather conventional design, similar to their non-dSLR digital cameras, but providing image quality and versatility of dSLRs.

Unfortunately, there is no in-body image stabilisation, but they have opted for optical IS in each lens.

The electronic viewfinder seems to be a good one, while the contrast detection AF is apparently as fast as entry level dSLR AF BUT this ONLY works on certain lenses. On other lenses you have to resort to manual focus.

I’m not convinced existing Four Thirds users will be too interested in buying this model, other than perhaps as a near silent second body for shooting in quiet environments – perhaps weddings, etc.

It may well be attractive to those who want better image quality than current non-dSLR digitals (by virtue of its much bigger sensor), while still wanting the same functionality (real time AF live view) in a relatively compact package.

Personally, I am looking forward to more innovative products such as a SLO-MOTION 60fps video capable body or a dedicated infrared body – but will they come through for me?

 

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800mm hand held telephoto reach hand held

Written by Gary on September 11th, 2008

OK…you have probably guessed… I am so impressed with this unique combination:

Olympus E510 + ZD 50-200mm + ZD EC20 2x teleconverter to give a relatively light (~2kg), compact, easily carried and used hand held kit that can deliver great images hand held at 1/200th sec shutter speed allowing great photos in the shade at ISO 400, f/7.

Why would you want this?

Well sometimes you just can’t get in close such as with this image of a Sumatran tiger in our zoo here in Melbourne. It was a nice cloudy day and this guy was way up back of his enclosure resting in shade some 50-100m away from me.

Now I’m not that crazy to jump the fence or throw things at him to get him to come closer, nor am I that patient to wait all day for him to move and nor do I want to cart around a 4-6kg camera kit and tripod, and lastly I don’t want to stand out from the crowd that much – I might get mugged!

So here is a cropped version (cropped to 3.8 megapixel) to emphasise the tiger – remember this is at 800mm telephoto reach so you can get a reasonable idea of how far away he was if I still had to crop it by 60%:

tiger

But when viewed at 100% crop, you can see how sharp this combo is even hand held at 1/200th sec – this just should not be possible!

tiger

see here to see the first image resized to a nice computer screen resolution.

The great thing is that even with the entry level E510, the AF worked very nicely indeed, and before you take this for granted, remember that on nearly all other brand cameras, AF will not work when the lens aperture + teleconverter combination becomes f/8 or smaller.

So even if you are happy to lug a much bigger and heavier lens around with a Canon or Nikon, you may find that you cannot use AF and you may not have image stabilisation available.

A case in point is if I bought the Canon EF 400mm f/5.6 lens and used it with my EF 1.4x teleconverter on my Canon 1DMIII, the result would be 728mm telephoto reach at f/8 and according to Canon’s website, AF is not possible and of course there is no image stabiliser, and it now weighs almost 3kg and is a very conspicuous long, white lens which has a close focus of 3.5m and not 1.2m as with the Olympus combo.

So you would miss out on photo opportunities such as these flowers at the zoo (no crop, just resized):

flowers

Now I am not criticising Canon or Nikon here, as they have their own advantages, but for handholdable, super telephoto reach with macro capabilities, you can’t beat the Olympus system.

 

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Olympus ZD50mm macro + ZD EC-20 2x TC macro

Written by Gary on September 9th, 2008

Another day out with the wonderful combination of Olympus E510 + ZD 50mm macro lens + ZD EC-20 2x teleconverter + Olympus Ring Flash.

This combo makes macrophotography a piece of cake – all you need do is find a subject, put exposure mode onto manual, select an aperture to give enough depth of field such as f/8 or f/11, select a shutter speed slower than 1/180th sec (you can adjust this to adjust degree of ambient background lighting you want instead of just getting a black background), set focus to manual and crank lens out using the focus ring until you get the desired magnification you need, then just move into your subject carefully until it appears in focus.

Olympus TTL flash will do the rest, although be warned, it needs to fire a pre-flash to determine exposure and this causes a bit of shutter lag.

  • You can easily avoid this by changing the Flash mode to manual (just hit the mode button) and dial up a manual output (eg/ 1/16) and adjust this according to exposure results – for the same macro magnification, aperture and ISO, this manual output can remain constant. In manual mode you can also trigger additional flashes by optical triggers as there is no preflash to cause premature firing.

Here is a portrait of a butterfly today, no Photoshop, no cropping, just resized for the web:

butterfly portrait

you can see more of my butterfly pics from today here, including this fabulous butterfly mating:

my macro photos

oh….and a nice frog (without the 2x TC or the ring flash – hand held):

butterfly portrait

 

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Video technology for photographers – and the Four Thirds Micro

Written by Gary on September 6th, 2008

If you are like me and have largely ignored the advances of video cameras and their technology over the past few years, then you might like to have a read of this summary of the current status:

Video Primer – posted on Luminous-landscapes

From it, you will see that a 720p gives better motion images than a 1080i but the holy grail is a 1080p which shoots 1920×1080 progressive scan. Also the current video codec AVCHD is maturing and requires 6-10Gb per hour of shooting hence the need for 32Gb SDHC cards and this is taking over from tape BUT requires a LONG time and a high end computer to edit.

From an Olympus users point of view, you will note the convergence of video and dSLRs, with the main need for this being shallow depth of field as most camcorders use small sensors, smaller than Four Thirds and thus have difficulty producing shallow depth of field.

Now, perhaps you can see one avenue where Olympus is heading with the Four Thirds Micro system – a camera with HD video capability with shallow depth of field such as could be obtained using the ZD 50mm f/2 macro or the ZD 50-200mm lens.

Of course, they will not be alone now that Nikon has added a movie mode to their new D90 dSLR but the Four Thirds Micro system without being weighed down by the disadvantages of a reflex mirror might just come up with more innovative solutions.

 

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Abobe Creative Suite 4 (CS4) announced

Written by Gary on September 4th, 2008

Adobe have announced that their new version of Photoshop and Creative Suite (named CS4) will be unveiled on Sept 23rd 2008.

I’m sure many will be keen to see what extra functionality it has in store, maybe I might even consider upgrading from CS2.

 

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Olympus ZD 50-200mm SWD + EC-20: moon revisited

Written by Gary on September 4th, 2008

Well I had a chance to capture a crescent moon tonight between the clouds so I thought it was worth comparing the 50-200mm with 2x teleconverter (ie. 800mm telephoto reach) with hand held vs tripod with mirror up.

These are 100% crops of original jpegs (ie. you are pixel peeping at 100% here, more than you would if you printed this), and no PS processing, no sharpening.

First, at 200mm+2xTC f/3.5 (ie. 800mm eq. f/7), 1/200th sec, ISO 400 hand held with IS ON:

moon with IS on, hand held 800mm

and, at ISO 100, 1/25thsec, f/5 (ie. 800mm eq. f/10) on tripod with mirror up (antishock = 5sec):

moon via tripod 800mm

Well, I don’t think there is a lot of difference, so using this lens combo at 800mm hand held with IS on and 1/200th sec gives pretty impressive results and such results at this telephoto reach with autofocus hand held are unlikely to be had with any other system.

Of course, with manual focus mirror lenses you could get the reach on other cropped sensors but unless they have IS in the body, you would not get away with 1/200th sec and these lenses have less contrast and resolution compared to this lens combination.

These were taken with the Olympus E510 and look even better with a bit of sharpening such as with unsharp mask in PS.

 

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