Truth, Ownership, and the Scientific Tradition

number6x writes "The Physics Today website has an article by Robert Laughlin titled "Truth, Ownership, and the Scientific tradition". The article deals with some recent blunders in the scientific community like the falsification of data at lucent covered here on slashdot. The article is mainly about the conflict between the free exchange of ideas that the scientific community needs to survive, and the demand for property ownership that commercial sponsors demand."

life sciences vs. physics

[lovebyte]

From the article:
This is especially true vis-à-vis the life scientists, who have more money, less oversight, and much more tolerance for imprecision than physicists. Rather than allow ourselves to be defined by the property we generate, I suggest we take the high ground and turn ourselves into the gold standard of truth. This is the way to make physics relevant and important in this "age of biology."

Do I see some bitterness in the physics community? It is seen nowadays as very important for humanity to spend more money on the life sciences and less on physics. And the physics guys do not like it!
Tough.

Re:life sciences vs. physics

"Do I see some bitterness in the physics community? It is seen nowadays as very important for humanity to spend more money on the life sciences and less on physics. And the physics guys do not like it!
Tough."

I think you are breathing too much into the statement you're referring to. What physicists are annoyed at is that their research interests are soley judged by the potential amount of money it can make. Physics has a long tradition of basing itself on the pursuit of knowledge, and more importantly, the truthfulness of that knowledge. Replacing "academic interest" with "potential revenue" has many adverse effects, of which some are appearing now. The issue is not about how much money physics gets, but what is being used to justify research.

The author was of the opinion that the life sciences are not as rigorous in testing the veracity of research results. I do not know if this is true, but it would be not be surprising -- biological systems are much more complex and harder to control.

I fully agree with the author of the Physics Today article that the corporatisation of universities is quite dangerous.

Re:life sciences vs. physics

[simong_oz]

It always goes in cycles - each science has it's day. The buzzwords at the moment which will secure you large amounts of funding are:

DNA
genetic engineering
tissue engineering
anyone want to add some more?

Use all these in a sentence and submit to your favourite funding agency.

It is seen nowadays as very important for humanity to spend more money on the life sciences and less on physics.

It has been like this for quite some time - research with medical applications has always been well funded because the medical community is very good at procuring and protecting research funding. A decade or so ago it was AIDS/cancer, now it's anything to do with DNA/genes.

Re:life sciences vs. physics

[rknop]

The author was of the opinion that the life sciences are not as rigorous in testing the veracity of research results.

Very true. But biology is where physics was at the time of Newton. Each big science domain is doing what it can with what it has. I don't think that applying a physics point of view to just life sciences or any other scientific domain is right.

I suspect the author of the article would agree with you. I think the argument isn't so much "let's be very rigorous to prove that we are better than the biologists." It's more that physicis is no longer the premiere cutting edge technological science as it was in the 20th century; increasingly, biology is taking up that mantle. Instead of continuing as an also-ran has-been, the author seems to be proposing that physicists change their attitude to try and distinguish themselves as useful and productive in a different philosophical area, an area that much of the biological sciences probably won't really be strongly pushing into for at least a few decades.

Mind you, I personally think that applying a (fill in the blank scientific) point of view is right, almost always. However, you then need to evaluate how useful that exercise was. Not performing the excercise out of some sense of "not right" is just as harmful as refusing to make progress in biology because the field can't currently live up to physics standards of rigor. Keep an open mind in both directions; apply as many reasonable scientific perspectives as you can to see if you learn anything in the process.

-Rob

Re:life sciences vs. physics

[Zeinfeld]

Two points of issue here. First, particle physics research over the last fifty years is what made the solid-state revolution

That is untrue. There are no sub-nuclear effects that are employed in semi-conductors. Rutherford and Chadwick's work on the structure of the atom was all pre-war and that is what the physics of semiconductors is based on. I have degrees in electronics and particle physics, the quantum mechanics used in solid state uses a completely different notation to that used in particle physics.

Only through linear accelerators was the crystal structure and properties of semiconductors properly worked out

You were almost close. Accelerators are used for chrystalography but not lineacs, It is the bremstralung radiation that you get from accelerating a charged particle arround a curve that provides the high powered radiation. The crystaline structure of silicon GaAs etc are all very simple and were deduced long before quantum mechanics, let alone particle physics. I very much doubt that any crystal structure that had such a high degree of complexity it could only be deduced using those techniques would be far too complex to be useful for VLSI.

As for your fusion power comment, I must say that, for one thing, there hasn't been too much funding because there hasn't been too much progress.

How much progress has there been in particle physics? Why would basic research into the fusion process be intrinsically less interesting than finding out the structure function of the z0 etc?

Re:Newton, Darwin, Einstein and ownership...

[Jace+of+Fuse!]

what would happen if the next Einstein comes along and demonstrates that cold fusion is possible, clean and safe... but is sponsored by Exxon?

Obviously, Exxon would then shift their focus to Cold Fusion, lock everone out of the industry via way of patents and bs intellectual property, and they would pretty much have a monopoly on energy production in the end.

Dispite what most people think the oil industries AREN'T out to kill all other forms of energy production. They just want to make sure that by the time the oil DOES run out they are the ones that own the new source.

One of the big problems in science now...

[TheWhaleShark]

There's a big pressure now for people in the Biological sciences to produce something useful. When you put science under pressure like that, you're bound to see lots of people cutting corners, falsifying data, and generally doing things against the great principles of science.

That's a big side effect of corporate funding for science; if some corporation is giving you money to research, say, some new gene, they want viable results and they want them soon. They don't understand that you can't rush science; if you do that, you get an inferior (and often dangerous) product. Hell, just watch an ad for any new allergy medication; the side effects take up most of the ad time.

The real problem is that there needs to be more funding from different sources (government funding, mehtinks?) so that particular labs won't represent the goals of one lone corporation; if you have to answer to many people, you're bound to take your time.

It's a big nasty mess, and one that really needs to be resolved. We can only go on like this for so long before someone fucks up royally and everyone pays for it.

Lies

[ivrcti]

I found it fascinating that at only one place in the article, buried at the end of a long and complex paragraph did the author use the terms lies. He frequently used euphemisms such as "creative", but only once he did directly refer to dishonesty. Yet in the end, this sort of scientific smoke is simple dishonesty at its core. Only when a man chooses to surrender his personal integrity, do these problems occur. Our attempt to color them with quiet shades of pastel only makes the behavior more likely.

What does this say about our culture in general and the effect on our scientific community?

Re:Newton, Darwin, Einstein and ownership...

[simong_oz]

With the rise of "corporate universities" and corporate science the drive has been to be more accountable.

Corporate universities are a byproduct of today's corporate society where the emphasis is on money - earning, spending, getting, justifying spending other people's, etc.

The problem has filtered down to universities - because they spend public money (ie. taxes), that money has to be justified. You simply can't justify academia in monetary terms, and so universities have had to change. But that change has been brought on by the public demand that government be accountable and transparent (and so it should be).

The other big problem is that more and more government funding is being cut. The only other avenue for funding is sponsorship by corporate entities who won't sponsor research that doesnt have a product they can make money from (because the companies are accountable themselves), and the problem will continue to spiral downwards.

The real problem here is the money counters trying to put a monetary value on research [output]. In a similar vein, the reason that publication is so out of control now (ie. the emphasis is on getting as many publications as possible) is that people thought this was a good way to measure academic output.

Re:This has been building for a long time...

[simong_oz]

You could see the "methods" sections in papers becoming shorter and more perfunctory, for example.

Along the same lines:

In my experience, it is extremely rare to find a journal/conference publication that includes enough information in the methods section to allow others to either check or verify the work or use the findings themselves. Vital information is almost always missed out - it's an artifial intellectual property control, and, as the parent post says, makes it easier for data to be faked.

uncovering the purpose of patents, copyrights, etc

[The_Rook]

if you carefully read lauglin's essay, one of the things he laments is the secrecy behind which coorporate sponsored research takes place. i suppose it would be redundant to mention that the elimination of this secrecy is what patents and copyrights were originally designed to prevent.

patents, exclusive licenses to new inventions, are granted for the sole purpose of encouraging inventors to publish, in full detail, their inventions. without patent protection, for example, texas instruments and fairchild semiconductor may not have ever told anyone how to make an integrated circuit. they would have made the first chips under a cloak of secrecy, sold them as black box devices, and bury the chips in epoxy to protect the secret.

unfortunately, industry, the lawmakers, and even the courts have forgotten the whole idea of patents is to publish. industry wants to call patents property that should belong to the holder and anything that weakens the patent is the equivalent of a 'taking'. congress and the patent office are all to happy to agree. and the courts have screwed the matter up further by taking the position that engineers and inventors are not legally qualified to decide if they are infringing on a patent, and so are not allowed to even look at one when trying to come up with new inventions.

Re:Newton, Darwin, Einstein and ownership...

[Rhubarb+Crumble]

Dispite what most people think the oil industries AREN'T out to kill all other forms of energy production. They just want to make sure that by the time the oil DOES run out they are the ones that own the new source.

And they want to make sure they make a killing until then. Just like farmers make more money when food is scarce, oil companies will profit immensely if there is an energy crisis. OTOH, a gradual, smoothly managed transition will just bring extra costs for the new infrastructure needed for different energy sources, with no extra profit to be squeezed out.

The very sad thing is

[phorm]

That it will make it that much harder to believe the real scientific breakthroughs. I mean, if you've got some scientists working a month of after-hours in a lab, and suddenly he comes through with cold fusion or a cure for AIDS. The next day, he's on the phone yammering about how he's done it, but because of the stress/caffeine/lack-of-sleep he can't remember the exact steps to making his project, and it's not quite working today. The scientific communicate will just hum and haw, ignoring his finding until they can be fully substantiated.

Unfortunately, not all experiments are a 100% reproducable result. Sometimes there are outside factors that one doesn't think of (hey, the moon was full and the tide was high), that make an experiment very hard to produce. If scientists aren't trusted and can't immediately able to produce results, they won't be able to get the additional funding that may be required for further research (it worked, but doesn't now, but it worked, so why?).

Re:This has been building for a long time...

[Idarubicin]

On the one hand you had people typified by older zoologists, who were gentlemanly academic putterers, studying animals and publishing papers.

I will paraphrase Ernest Rutherford, since I can't find a definitive version of his quotation on the Web right now. He said something to the effect of, "All science is either physics or stamp collecting."

More generally, research can be lumped into two broad (and overlapping) camps: phenomenology and investigation. Phenomenology involves making more and more detailed reports of the world, but does not require one to perform experiments or formulate hypotheses. Investigation includes attampts to gain a "deeper" sort of understanding of problems--it is not merely stamp collecting.

Unfortunately, much of biology was trapped in phenomenological models until relatively recently. Until the development of tools to pursue the study of molecular biology and genetics, we were limited to a basic acceptance that heredity existed, and some handwaving about evolution and so forth--and we could label all of our stuffed specimens, because taxonomy just takes a sharp eye and some good guesswork. (Even so, many species are now being reclassified as genetics tools are brought to bear on them. The taxonomic kingdoms I learned in school are not the ones being taught now.)

In physics, you can look at a system and in principle describe all of the interactions at work. If it is a simple system, you can perform calculations that predict how it will evolve over time.

In biology, take a single cell. We still can't describe everything that goes on in that little cubic-micron space, though we're getting closer. We're finally starting to understand the way many of the more important chemical pathways within cells operate. We can fold simple proteins in simulation. Some of the genetic tinkering we can do actually has predicatable effects.

So of course biology is changing as a field--it is graduating from stamp collecting to science. That will attract new attitudes, new people--and new funding.

Re:Science serves at the pleasure of Engineering

[Idarubicin]

What kind of SCIENCE does a theoretical physicist do? If they're discussing things that are never tested, then they're simply engaging in conjecture, not science.

Ultimately, it is science if the hypotheses (or conjectures, if you prefer) they develop can in principle be experimentally disproven, and can be used to make predictions.

If you aren't testing your hypothesis with real experiments, you're not doing science!

I suppose the question becomes, "Is Stephen Hawking a scientist?" The evaporation of black holes is something that we are not currently able to simulate in the lab. Nevertheless, the idea is a natural (brilliant, elegant, and inspired, but natural) extension of concepts of entropy and quantum mechanics. (I grossly oversimplify, but there's lots more about it on the web for those that are interested.) Furthermore, it makes predictions about what should happen to a black hole, which meets my second criterion. These predictions cannot be tested at this time, but will in principle be testable in the next generation of supercolliders. Until such time, Hawking's ideas still can spark lively debate--which is exactly as it should be.

Does this mean that we should not be allowed to consider theoretical physicists and cosmologists real scientists until technology matures to the point where their hypotheses can be tested? I submit that scientists are people who put forth rational hypotheses based on whatever incomplete information is available, and are prepared to test their hypotheses--or allow others to do so--when technology and funding allow. Real scientists should be able to recognize the difference between a hypothesis and an accepted theory and trust the two accordingly.