Nanotechnology: Lessig, Sherman and Drexler Speak

An anonymous reader writes "Reporting from The Foresight Institute's "Vision Weekend", Glenn Reynolds (aka Instapundit) discusses the future of nanotechnology and the politics behind it. Also featuring a video interview of Lessig, Sherman and nanotech pioneer Eric Drexler."

Ah I can see it now

[Timesprout]

Nano bots will be part of Palladium, your PC will not respond unless you have the correct embedded bots. Any attempt to circumvent DRM or any EULA conditions will be punished by the bots relaxing you sphlincter muscles at the most inapropiate of times and most probably in a public place. God help any geek who has a girlfriend as violations may be additionally be punished by relaxation of other muscle groups.

Site seems slow, or it could just be me.

As I promised last week, I attended the Foresight Institute's "vision weekend" relating to nanotechnology, and I have a report. (If you don't know much about nanotechnology, read this for some general background.)

The good news is that interest in nanotechnology doesn't seem to have suffered as much as it might have in light of the economic woe that has swept Silicon Valley. Though I saw a lot of "space available" and "for lease" signs as I drove around Palo Alto, attendance at the conference was only slightly below last year's.

There was less Extropian-style enthusiasm about the long-term prospects that nanotechnology might lead to near-immortality, and more talk about near-term developments and venture capital. And I guess that's the biggest shift in the field. When talk about nanotechnology was new, the long-term prospects dominated. They're still important, and people are still talking about them (who doesn't want to live a long time - er, besides Leon Kass, that is?) but the big buzz was over startups that are promising to deliver interesting new nanodevices within the year. Venture capitalists were talking about nanotechnology-related products that they're backing, and there was more discussion of products that can be brought to market in the near term. (One fallout of the dotcom bubble's bursting is that the venture-capital community seems very interested these days in companies that will produce customer revenue sooner rather than later)

People were also interested in the politics of nanotechnology, politics that are taking place both within the scientific community and within the greater polity. Within the scientific community, the "nanotech isn't possible" argument, which seemed dead a couple of years ago, seems to have enjoyed a modest resurgence. This isn't because any new experimental evidence has appeared; but rather, most people seem to think, because many scientists - fearful of criticism by Luddites and technophobes - want to undermine fears of advanced nanotechnology by simply taking the subject off the table. This probably won't work, for reasons that I outlined in last week's column, but it's a natural instinct, I suppose. You'd think, though, that at least some of these people would beware of Arthur C. Clarke's observation that when a distinguished scientist says that something is possible, he is almost certainly right, but when he says that something is impossible, he is often wrong.

The larger world is taking notice, too. That's both a good thing and a bad thing. The good thing is that some - like Professor Lawrence Lessig of Stanford Law School - want to help "inoculate" nanotechnology against excessive legal interference, something that was the subject of Lessig's talk at the conference.

And some policymakers like Rep. Brad Sherman (D-CA), who attended the conference in its entirety, are taking nanotechnology rather more seriously than, say, Prince Charles. Sherman has drafted legislation calling for the National Academy of Sciences to study the impact of nanotechnology and wants to see far more attention paid to issues of economic, social, and political impact.

One Sherman-offered amendment to the current nanotechnology bill, HR766, called for 5% of nanotechnology funding to be set aside for such studies. That one didn't get adopted. But another, which was unanimously adopted, calls for a National Academy of Sciences study on the possible regulation of self-replicating machines, the release of such machines in natural environments, the distribution of molecular manufacturing development, the development of defensive technologies, and the use of nanotechnology to extend the capabilities of the human brain. (Sherman solicits your advice, and says you can email him at Brad.Sherman@mail.house.gov - with the subject line "Science" - if you like.)

The military aspects of nanotechnology have gotten more attention: In a speech last week, President Bush emphasized the role of technology in American military success, and noted that we are seeing wea

Nanodangers.

[caquillo]

Has anyone noticed that most of the nanodangers people are worried about are far-future sort of scenarios. Though I'm no Nanotechnician, I've got enough of a passing interest in the subject to know that scientists are not so much saying that nanotechnology is impossible(like the author of this article seems to suggest) but that self replicating nanotechnology is impossible. Now, while I know if it is actually impossible, I strongly believe that self-replicating nanotechnology is beyond our mortal grasp, and without self-replicating nanomachines, most of the other really big nano-dangers ( and many of the nanodreams ) become nigh on impossible.

For Instance, take any sort of nanomachine that affects a human body. Nanomachines are very small and very hard to make. Our body is made of many, many cells. To kill, or change, or even repair a signifigant number of those cells, you need an obscene number of nanomachines. Without self-replicating nanos, you're going to be using alot more resources to make the nanos than it will take to achieve the same ends through other means.

Most of the current Nanotech seems to be centered around production methods of non-nano devices, sensors of different sorts, computing, and biotechnology. (Biotech being it's own can of worms and a very different matter from nanotech, indeed.)

Clarke's Laws

[Noren]

The article somewhat misquotes Clarke's First Law, written in 1962, which actually said:

When a distinguished but elderly scientist states that something is possible, he is almost certainly right. When he states that something is impossible, he is very probably wrong.

He continued:

Perhaps the adjective "elderly" requires definition. In physics, mathematics, and astronautics it means over thirty; in the other disciplines, senile decay is sometimes postponed to the forties. There are, of course, glorious exceptions; but as every researcher just out of college knows, scientists of over fifty are good for nothing but board meetings, and should at all costs be kept out of the laboratory!

One should keep in mind Asimov's Corrolary to Clarke's Law: (from 1977)

When, however, the lay public rallies round an idea that is denounced by distinguished but elderly scientists and supports that idea with great fervor and emotion -- the distinguished but elderly scientists are then, after all, probably right.

Nanotech has some danger of falling under Asimov's corrolary. Clarke's Third Law is actually better known than his first, and may apply here too:

Any sufficiently advanced technology is indistinguishable from magic.

All quotes taken from the rec.arts.sf.written FAQ.