Build Your Own Scanning Tunneling Microscope

I don't want to spen writes "For all you fans of nanotech out there, a friend just posted me a link to instructions for building a scanning tunnelling microscope, from the University of Muenster. Interestingly, their licensing terms sound open source-ish to me: '(... We grant everybody the right to construct the microscope using the here-published design for private or educational purposes. On these web pages all necessary diagrams, drawings, material descriptions and software-source-codes are published for free access. While granting the right to build the microscope we make it mandatory that new developments, improvements or other applications of our design are also made openly available for private or educational purposes...)'"

omg!

[niko9]

A hardware desging, in the GPL style, released to man for his education and enlightenment?

You mean this is not like, say for a example, some greedy physician who comes up with a slightly different way of suturing someone with existing tools, patenting said technique, and then demanding worldwide royalties????

The end is near! /faints/

--

Sad face?

[Polyphemis]

Interestingly, their licensing terms sound open source-ish to me: '(

heh, did anyone else quickly glance at that and think he was making a sad crying face because it sounded open source?

"Uh oh! It sounds like open source! :'("

Re:Srpechten de German?

[Slowping]

ACHTUNG! ALLES LOOKENSPEEPERS!

Alles touristen und non-technischen looken peepers!
Das computermachine ist nicht fuer gefingerpoken und mittengrabben.
Ist easy schnappen der springenwerk, blowenfusen und poppencorken
mit spitzensparken. Ist nicht fuer gewerken bei das dumpkopfen.
Das rubbernecken sichtseeren keepen das cotten-pickenen hans in das
pockets muss; relaxen und watchen das blinkenlichten.

couldn't help myself

Re:Question to all you bioinformaticians

[QuantumG]

no. To find the 3d structure of a protein or a virus you need to be able to crystalize it and then use a technique such as xray crystalography or NMR. There are some new techniques being developed based on mass spectography that can determine the structure of proteins that cannot be crystalized, but they're in their infancy. An STM simply can't be used, because the sample must be able to conduct a current (ie, it has to be a metal or something placed on top of a metal). Preparing samples for an STM is much like preparing samples for an electron microscope, you need to infuse the sample with a conductive material (usually gold) to be able to see it clearly.

Atomic force microsopes on the other hand can do some very neat work with small organic particals, but seperating something like an HIV from solution is still difficult, and usually involved crystalization.

open source-ish?

[49152]

I dont think so

With BSD or GPL style licenses you are actually allowed to use the copyrighted work in an commercial setting, just not to sell it. For instance a commercial company might run their web server using GPL licensed software.

With this not only do they retain the exclusive commercial rights, but the license might in fact be read as an attempt to force you to turn over any improvements on their design.

So if you make an improvement, does this mean that you have implicitely granted the University of Muenster the rights for commercial exploitation of your own improvment by accepting their license in the first place?

This does not sound "open source-ish" to me, it sounds like out right theft.

PS: Please ignore any bad spellings/grammar in my english or at least be polite when telling me ;-)

Re:I'm just curious...

See if those penis enlargement pills are working.

Re:Question to all you bioinformaticians

[Dr.+Null]

I am not aware of any of any instance of a large molecule whose structure was deduced from a scanning tunneling microscope. Things like proteins, enzymes, and viral particles are most generally probed by growing them into crystals and a analyzing their x-ray diffraction patterns. The big problem with this technique is that big molecules are hard o grow into crystals (thus all the grow protein crystals in the micro gravity of orbit effort) Nonetheless, a Scanning tunneling microscope is VERY COOL, and within the engineering capabilities of a dedicated hobbyist. Heck, you can now buy a complete Scanning tunneling microscopes for 20K; pretty cheap for a high-end piece of laboratory equipment. The real trick is to get the stage into a hard vacuum at cryogenic temperatures. Who will be the first person to spell out LINUX in Xenon atoms on a nickel substrate? I will donate money to that cause By the way, in college I used to produce atomically sharp needles for field emission ion sources just by burning tungsten wire in a propane torch. That should be an easy way to make probe tips

Re:a free slot for ISA cards

[SirTreveyan]

The design as given requires a ISA slot because of the type A/D converter card they selected. If you do not have an ISA slot available, I am sure a PCI based, or even a USB based analog to digital converter can be found. It would probably be a good idea to change the A/D, as the one used has a 100khz refresh rate. I am sure that there are cards out there that refresh at a much quicker rate, thereby allowing improvements in other areas of the design. Just be aware that the software would have to be modified because of the different card, but that should not be a difficult matter for anyone attempting this project.

Re:I'm just curious...

[femto]

They cannot. It's complete bluff.

Unless they have patents, there is nothing they can do to stop someone from building a microscope using their plans. The only thing they can do is stop you from copying the plans themselves (under copyright law).

John D. Alexander, the inventor of the disk scanner, also has a 'free' STM design on the web. Incidentally, this guy took out a patent on the disk scanner, then withdrew the patent application! Now that's a smart way to make sure others cannot lock up a design with patents (or he just ran out of money).

Re:It's a stupid license anyways

[Xzzy]

Talk about a classic example of looking a gift horse in the mouth.

You're getting this information for FREE. It hurts you not at all to have such a 'stupid' license, because previously, you didn't have the information at all. By every imaginable definition of the concept, you have more available to you now than you did previously.

You have no justification for being so bitter. In this era of jealously defended "intellectual property", ANYONE giving anything away deserves commendation.. not derision.

Re:They would have a hard time enforcing it

[femto]

You are free to *use* software while ignoring the GPL.

The GPL only kicks in when you *distribute* copies of the software. In this case if you choose to ignore the GPL, copyright law defaults to 'you are not allowed to distribute the software'. Hence the *only* legal way to distribute (note: I didn't say 'use') GPL'd software is to agree to the GPL.

More STM info

[apirkle]

There is a similar reasonably well-documented homebrew STM that was built by a guy named Jurgen Muller. His site is pretty interesting, and well worth the read.

Obviously there are a lot of articles on STMs in various academic journals. If you're at a university, you might start by searching in Reviews of Scientific Instruments and perhaps the Phys Rev journals.

I was involved with a STM project for a while, and our conclusion was that the 3D piezo setup is quite fragile, and extremely difficult to isolate from vibration, etc. It seemed that a better design was a so-called slip-stick walker, which uses a stage that slides on smooth rails. A tube of piezoelectric ceramic is attached and driven in such a way that it creates a series of small, sharp forces on the stage that momentarily break the static friction between the stage and base, causing it to move in small steps.

This stage is used to approach the sample to the STM tip, which is mounted on another piezo tube, and can be deflected laterally and vertically in order to do a raster scan of a small area of the surface.

The limitation to this method is that you can't scan a very large surface area. You can add a second "walker" unit underneath the first one so that you can move the sample from side to side in addition to moving it towards/away from the tip, so this would allow you to scan a stripe across the surface.

To get full 3D control, there are several designs called "beetles" (IIRC) that are described in the literature, which use a somewhat similar technique that allows more control.

Vibration damping

[fermion]

Of course, the most important component for any optical experiment is the Vibration Proof Table(TM)(patent pending). We have several of these using your choice of technology. The cheapest is the Immovable Mass (TM). The downside to this is that it is nearly impossible to ship. Another technique is hanging the apparatus on the Massless String(TM) from a Nearly Immovable Mass(TM). This requires not only an onsite visit by our service technician, but two years advance notice to acquire the material. Finally, we have the Completely Decoupled Environment(TM), in which we put the apparatus in the Perfect Vacuum(TM), and keep it away from all walls with a Leak Free Perfectly Damped Magnetic Field(TM)(patents pending). Unfortunately, though this system is relatively cheap, getting new samples on the 'scope is quite impossible.

We assure you, however, that hanging the scope from a thin scaffolding using light springs, and then attaching the entire setup to a huge piece of granite will not be sufficient.

On a more serious note, an STM is really easy to build, but really hard to make work. There has been more than one physics graduate student that has entered perpetual grad school limbo trying to get one of these to work. The vibration damping is just the start. Learning to etch the tungsten probes so that you get the necessary few atoms at the end is quite an ordeal. And then attaching the probe without allowing the tip to even come close to any surface. And then calibrating the piezoelectric so that the tip will be very very very close to the sample, but never touch it. You will go through 100 hand etched probes before the instrument is even grossly calibrated.

And then measuring the gap current. You learn what kind of noise a power supply really has. Getting a noise low enough so that a signal is discernible after amplification requires a power supply the likes of which few has seen. And then the noise that introduced by the amplification process. This are not your ordinary op amps. I shudder to even think about building a board that quiet.

But have fun, and remember us for you optical table needs. We are, after all, the only one who sell the genuine and otherwise real and purchasable Vibration Proof Table(TM)(patent pending).

Re:Visual Basic?

Maybe you should read it a little closer. This is a summer project for rich and technically competent high schoolers, or grad students. This is not cheap. And when it comes to making tips I think it's great to have kids playing with tubs of KOH.

And it's not SEM, it's STM. Sem is great for making pictures of insects and what not, STM is great for tracing out the p-orbitals of graphite. BIG difference (not your error, but as long as I'm clarifing, why not hit that too).

Propose a sputtering chamer or a PVD chamber, they'd probably be much cheaper to build and can be used to make other stuff. Which then one could look at with either an SEM or STM if one chose.

Goto industrial and university auctions too. I've hear tell of people giving TEM's away to whomever was willing to transport them (not that an isolation pad on which to set it is within the means of Young Scientists). But still.