New Digital Camera Lens Made of Liquid

Clarinase writes "101reviews is running an article about a new type of camera lens called Fluidlens. This patented lens made of liquid is no bigger than a contact lens, but can still achieve up to 10 times optical zoom by changing its shape similar to the human eye."

f1r5t p05t3d Dec. 2, 2004

[ackthpt]

Posted by CmdrTaco on Thursday December 02, @01:09PM in The Mysterious past!

BTW, I checked, all the links in the original article still work.

Re:f1r5t p05t3d Dec. 2, 2004

[tomhudson]

Yep, that was my first thought, too. A dupe. So, how about I recycle on of my comments:

So what happens when it gets well below freezing ...

Re:f1r5t p05t3d Dec. 2, 2004

[ChrisF79]

I didn't read the article, but what if it isn't water? Different liquids freeze at different temperatures so maybe they're using vodka. That's one liquid I know doesn't freeze at 32 degrees.

changing shape

[jest3r]

I have yet to master the art of 10x zoom by changing the shape of my eye ..

Re:changing shape

[yellowbkpk]

You're not squeezing hard enough. I can see the individual molecules (they're very colorful!) moving around when I squeeze my eyes hard enough for long enough...

Re:changing shape

[lastchance_000]

You have to make that "dit-dit-dit-dit-dit-dit" noise for it to work.

Re:changing shape

[DarkHand]

What you're actually doing is depriving the rods and cones in your eyes of blood. Similar to the nerves in your leg sending 'static' signals back your your brain when your leg falling alseep, your eye's start doing the same.

Re:changing shape

[Jherek+Carnelian]

Believe it or not, they are sometimes mistaken for UFOs.

Well that's no surprise since they are UFOS - Unidentified Floating Objects - in your eyeball.

Pardon the ignorance...

[lpangelrob]

...but is this really only useful for cameras in camera-phones?

Since it seems the lens size is necessarily very small, will the maximum resolutions of the resulting picture be limited in any way? Or is lens size correlated with the maximum resolution of a camera?

Re:Pardon the ignorance...

[otter42]

Lens size is correlated with the amount of light captured by the lens, and not the size of the image.

In fact, for a long time hobbyists have played around with "pin-hole" cameras, cameras that, well, have a pin hole in the place of a lens. The light diffracts throught the small hole, spreading out and thus blowing up the image.

Really expensive lenses such as you'd see in telescopes are big so they can get the maximum amount of light.

For a neat demonstration of this principle, take some binoculars and cover half of one lens. You'll notice that-- surprise, surprise-- you still see the entire image!

So, in the end, the lens diameter will allow you to take pictures in lower light situations. Which might well equate to better picture quality if you're not in bright, shiny daylight since the picture will be acquired faster with less chance for motion blur.

Re:Pardon the ignorance...

[badasscat]

I'm certainly no expert on photography, but it seems to me that the maximum resolution doesn't have much to do with the size of the lens.

Maximum resolution has quite a lot to do with the size of the lens.

Sure, you can make a sensor with 50 million pixels on it, but if the resolution of the image coming through the lens only carries an equivalent of 1,000 or so lines horizontally and vertically, you're just going to be getting a very large file, not a high-resolution one.

(This is the scam already happening with a lot of 7mp and up consumer-level digicams - they just do not have the optics required to pass that level of detail.)

The larger a lens is, the more light it can let through. And that's all an image is to a camera - light. On film, that light hits the crystals contained in the celluloid and chemically excites them, whereas on a digital sensor the light is converted to binary data representing the image. In both cases, though, light is all that matters.

Bigger lenses can obviously gather more light, which means they can be used in lower-light situations or at longer focal lengths (longer focal lengths involve more light fall-off inside the lens, so it helps for extreme telephoto lenses to have massive front elements). It also means the sensor does not need to have its gain cranked up so high to compensate for a smaller lens. And it means the sensor itself can be larger, which in itself will allow greater resolution.

Probably the most important thing, though, is that larger lenses can more easily achieve perfect focus. It is possible for a lens to be simply unable to achieve perfect focus - the light beams will just never converge properly. This is not an exact science - every lens is slightly different in this (even among the same model), but larger lenses can come closer because they're dealing with the same projected image size but have more incoming light with which to deal and larger elements that can be built to stricter relative tolerances. This has the greatest effect on real resolution, and it's why some lenses appear tack-sharp and others look a bit soft.

Relatedly, the larger the lens, the less effect manufacturing tolerances are going to have on quality. For example, say an element can be ground to within 0.001mm of spec and still be within that spec. If you shrink the lens down by 100 times and you can still only manage a 0.001mm tolerance, you will not have any real consistency in quality. You would have to similarly up your manufacturing tolerances by 100 times just to maintain the quality of the larger lens.

This is even ignoring all the image defects you get from smaller lenses. Photographic lenses usually have 6 or more elements inside them to correct for various distortions that the curved glass introduces; obviously this is going to be a lot more difficult to do the smaller you go, and I can't see how a lens with liquid inside is really going to be able to simulate this. It might be able to replicate one or two interior elements (even though liquid is infinitely maleable, it can still only be one shape at a time) but I would imagine there will always be distortions left over.

You may ask how our eyes work so well, then, given how small they are. Well, for one thing, our eyes are "prime" lenses - they don't have an optical zoom function. For another, we have a big, powerful brain sitting behind them to interpret what we're looking at and correct any oddities (the image your eyes are actually seeing and the image you interpret are not even close to being the same thing). The fact that we've got two of them doesn't hurt either - it's not just about depth perception, just close one eye and see how good your vision is for a while. Peripheral vision will be cut, it is harder to focus, etc. Your brain does a good job of taking these two images and combining them, making it easier to see. Having two eyes also means we have double the light gathering ability.

Also, many people's eyes *don't* work so well.

Like a contact lens

[FunWithHeadlines]

So can you distract a party by yelling, "Nobody move! I've dropped my camera lens."

Improvements for the smallest cameras

[Sv-Manowar]

Being able to get good image quality in tiny cameras is becoming increasingly useful because of the adoption of cameras into phones and similarly small devices. The amount of times I've see something I want to take a picture of, but don't have my camera is pretty significant, and I've found that since getting a camera phone its filled this void nicely. Being able to get a high quality image from a phone would be a great step forward for those who are using phone cameras for this kind of role. (Especially as the amount of storage available increases)

Glad to see a real invention for a change

[The+I+Shing]

I'm glad to see someone patenting an actual invention instead of just claim-jumping someone's idea for a website layout.

Re:Glad to see a real invention for a change

[oliverthered]

This is not 'real' inovation, they've been using the technique in Arfrica for years as a cheep way of producing glasses.

I coudln't find any info on google but I'm fairly sure they were invented by the wind up radio guy.

or if your really after pior art, it looks like the Greeks may have beaten them to it by 3000 years.

Here's an encarta link too

the question is...

[Avohir]

is it waterproof?

Re:the question is...

[Just+Some+Guy]

Or does the water get it instead?

Nobody knows. Liquid lens.

Re:New Digital Camera Lens Made of Liquid?

[callipygian-showsyst]

Glass is a liquid...

BZZZZT! Thanks for playing! Here's your consolation prize:

http://math.ucr.edu/home/baez/physics/General/Glas s/glass.html

Does this mean...

[slorge]

Does this mean your camera will have a "squint" button instead of a focus?

Another successful SF prediction...

[ex_ottoyuhr]

"OIL LENS: hufuf oil held in static tension by an enclosing force field within a viewing tube as part of a magnifying or other light-manipulation system. Because each lens element can be adjusted individually one micron at a time, the oil lens is considered the ultimate in accuracy for manipulating visual light." -- DUNE, "Terminology of the Imperium."

This is right up there with those relatively small, sealed nuclear reactors, IMHO. Neat.

Re:New Digital Camera Lens Made of Liquid?

[morcego]

No it is NOT!

10x zoom + focus vs. just focus

The diagrams show how it can both zoom and focus by changing shape, while the human eye only focuses by changing shape (and loses flexibility with age, thus presbyopia, or loss of near vision in age, which few of you slashdot whippersnappers know about).

The diagram shows how it gets pushed or pulled in two sections, a top and a bottom, which mimics a 2-element 1-group lens. It may focus with the "front" half and change focal length with the back, or use a combination of both to get the right focal length and focal plane for a given situation.

The lens in a vertebrate eye (and many invertebrates too) is flexible and is focused at "infinity" when in the relaxed state. When pulled by little muscles that surround it, it flattens, and that changes the focal plane so that it focuses on near objects. The focal length is fixed, so there can be no change in angle of view (zooming).

Normal myopia (nearsightedness), hypermetropia (farsightedness) and astigmatism come from the whole eye being the wrong shape, usually a function of the eye being squished one way or the other during childhood growth, and the lens tries to focus where it can't.

Re:Squinting

[viking099]

Incorrect. Squinting acts as a filter for scattered light (kind of like how those showboxes with the pinholes in them allow you to see an eclipse).
There was a guy a number of years back who sold "sunglasses guarenteed to improve your sight!" and all it was was a opaque plastic lens with hundreds of tiny holes in it.

To do any kind of zooming, you need 2 lenses, I believe, otherwise it's just a shift in focal points.

Re:haven't we seen this before, back, back in 2004

[wcdw]

Except that the previous article talked about an oil-and-water lens, and specifically mentioned using 40V to alter the shape.

THIS article says it has no moving parts, and does not use electricity to deform the lens - a valuable attribute in things like camera phones.

Re:Dupe

[Anakron]

Not really. They are two different approaches. In fact, this article mentions that they're different from the electric-field-applying camp.

Jeez stop the all the glass is a liquid posts

[papasui]

Glass is an amorphous solid.

Re:New Digital Camera Lens Made of Liquid?

[Holi]

No it's not. It has some similarities, such as having no regular arangement in its atoms, but unlike a liquid, which have no strong forces holding the molecules together, glass is held solid by strong chemical bonds almost as if it were one giant molecule. Glass does not flow at room temperature, the defects you see in old glass windows are not because it has been flowing slowly over the past century but are due to the manufacturing process in creating those windows.

Glass has a viscosity (at room temp) of aproximately 10 to the 20th power poises while water (to give you a reference point) is about 0.01 poise.

Oh and if you think that because you can use the term viscosity when refering to glass that it is a liquid I should let you know that lead has an estimated viscosity of 10 to the 11th power poises.

Take a look at some of the oldest glass structures we have, Stained glass windows in some of the worlds ancient cathederals. If your 100 year old house shows much distortion do to flow imagine what an 800 year old stained glass window should look like, except it doesn't.

Glass does not flow at room temperature.

Re:Squinting

[sledd_1]

"By squinting people are actually changing the shape of their eye, just ever so little, so that the light focuses correctly on the retina.

Squinting also decreases the amount of light that enters the eye. Go ahead and squint right now - notice that you can start to see your bottom and top eyelid. When a lens is misshapen (due to age, damage or genetics) the light that passes through the lens is deflected incorrectly and misses the focal point; the farther the light rays are from the center of the lens, the more they are deviated from the focal point. By limiting the rays of light that come in through the bottom and top of the pupil, squinting allows rays to pass closer to the center of the lens, thereby creating a more focused image. So, that means that squinting works by two mechanisms - by both changing the shape of the eye and by letting in light that can be focused more precisely by the lens."

Re:New Digital Camera Lens Made of Liquid?

[jim_v2000]

Actually, the article you cited says at the bottom that there is no clear answer as to whether or not glass is a liquid.

Thanks for playing!

Re:Squinting

[Overzeetop]

I was under the impression that squinting, like the sungalsses you mention, do not filter scattered light, but rather artifically reduce the aperture of you lens, increasing the depth of field. The result is that an object which is not at the image plane is more likely to be "in focus", thus relieving your eye from needing to focus to that point. It's particularly good for astigmatism, as the small aperture compensates for the cylidrical portion of the lens. The down side is that you lose total light collection.

Note that the opposite is true, as well. When your iris is at its largerst aperture (at night, in dim lighting), your vision will be at its worst.

Re:vodka

[b0bby]

Yeah, I knew a guy from Alaska who had stories of people carrying alcohol on hikes and taking a drink - your throat just gets frozen. Here's a link where someone almost died, but the doctor used a tube to get liquid into the victim. http://www.pbs.org/wgbh/amex/ice/filmmore/referenc e/interview/vaughan08.html

My Guess, a ferro-fluid

[Vitriol+Angst]

I was looking to patent an idea like this. I created a liquid lense with oil and Iron-Oxide -- nothing really exotic, Ferro-fluids have been used for quite a while. In my design I used a combination of ionization and magnetism to shape the lense. It was only part of a more complicated idea--I didn't think the lense was worth a patent by itself--kind of obvious. The only reason this is useful now is that we have new technologies in video that can actually use such a tiny lense.

I was actually using this to move a laser to boost radio signals. I kind of gave up on the whole thing because I didn't have a job and didn't have any idea how to get the ball rolling. I'm an idea synthesizer-- not a lawyer. Anyway, I could have had about five patents out of this.

So, in short, this lense may possibly be as simple as mineral oil and rust surrounded by water between two pieces of glass (I haven't been able to read the article due to the "slashdot effect"). Inside the small area of water, surface tension works to hold the shape and relax the effects of gravity--It's best to have an oil of the same specific gravity as water (most are lighter) so that motion will not pull one liquid more than another. Still, unless you used a strong magnetic field on the ferro-fluid, motion would change its shape-- so no long exposures. The difference in light distortion between the water and the oil will allow for your lense to focus. My idea was to use two lasers--one as a reference beam to calculate unwanted distortions. I'm guessing there is going to have to be some feedback mechanism to determine what the spherical abberation of the resulting liquid lense would be. I wouldn't want to say anymore because it would then be easy to guess the tricks I figured out. Since I have nothing but a love of science and no degrees in the material sciences, the actual fabrication of this device would not be my forte.

On an aside, I still think it would be a nice idea to spin water in space to create a large lense for telescopic or sunlight collection purposes. About 30 years ago, when fiber optics first came out, I played with a lot of ideas for uses-- things like piping sunlight into the house, using it to peer inside the body and lase out blockages (I used a parasol design to stop blood flow and expand arteries--rather than a more obvious and more elegant balloon). It amazes me that things as obvious as a liquid lense can still find patentable uses.

I actually submitted this as an idea to a company that says it helps people with Inventions. When I got a follow call asking for $1200 more than the original $500 I realized it was a scam (sigh). If these scumbags realize they have prior art--I'm guessing they won't, since they are about scamming more than actually understanding any technology that people submit. Well, lessons learned. Nobody is going to "discover" your brilliance in life--everyone has to do their own leg work.

One of these days, I'd love to get back to inventing.