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Tuesday, February 17, 2015

Defending Science-Based Medicine: 44 Doctor-Bashing Arguments ...and Their Rebuttals

Harriet Hall

Volume 38.6, November/December 2014

Original link:  http://www.csicop.org/si/show/defending_science-based_medicine_44_doctor-bashing_arguments_and_rebuttals

Supporters of alternative medicine and purveyors of quack remedies love to criticize conventional medicine and science. They keep repeating the same tired arguments that are easily rebutted. This handy guide will help skeptics answer common criticisms from doctor-bashers.

Doctor-bashing is a popular sport practiced by believers in complementary and alternative medicine (CAM) and purveyors of quack remedies. Since they can’t compete in the arena of science, their only recourse is to criticize science-based medicine—as if pointing out its imperfections somehow proves their own methods are superior! It’s like creationists who imagine that controversies about small details of evolution somehow prove that “God did it.”

The sport of doctor-bashing involves A LOT OF CAPITALS, miz-speld wurds, egregious errors of grammar and usage, abuse of logic, misrepresenting the facts, rejecting the scientific method, gratuitously insulting individuals rather than grappling with the issues, and so on. If players can find a way to compare doctors to Nazis, they get extra points. They tediously repeat the same false accusations and flawed arguments that have been rebutted ad nauseam.

I thought skeptics might find it useful to have a list of some common CAM arguments along with their rebuttals. These are not meant as debating points, since trying to debate true believers is as useless and frustrating as trying to glue ice cubes to the ceiling. But these points might be useful in discussing the issues with people who have not yet donned the jersey of a doctor-bashing team.

Defending Science-Based Medicine - 44 Doctor-Bashing Arguments ...and Their Rebuttals

1. Science doesn’t know everything.

Comedian Dara Ó Briain said it best: “Science knows it doesn’t know everything, otherwise, it’d stop. But just because science doesn’t know everything doesn’t mean you can fill in the gaps with whatever fairy tale most appeals to you.”
 
2. There are other ways of knowing.

Sure there are: intuition, imagination, dreams, revelation, tradition, speculation, the “stoned thinking” favored by integrative medicine guru Andrew Weil, anecdotes, and personal observations. All of these can lead people to strong beliefs, to the illusion of knowledge; but until those beliefs are tested, we can’t trust them to reflect reality. Only the scientific method can lead to the kind of reliable knowledge that took humans to the moon and transformed AIDS from a death sentence into a chronic disease with near-normal life expectancy.
 
3. Science is only a belief system, just another religion.

Science is founded on only two underlying premises: that there is a material world, and that we can learn about how that world works. Science doesn’t “believe” anything; it asks and verifies. It has an excellent track record of practical success. The scientific method unquestionably works.
 
4. Science keeps changing its mind.

Yes, and that’s a good thing. Scientific conclusions are always provisional. Scientists follow the evidence wherever it leads, and they often have to change course as new evidence becomes available. CAM refuses to change its mind even in the face of clear evidence. Scientific medicine stops using treatments if they are proven not to work; medical history is littered with discarded theories and practices. CAM never rejects any treatment and hardly ever tests one of its treatments against another to see which is superior.
 
5. Science is dogmatic.

Yes, they inconsistently argue that science is dogmatic while also arguing that science keeps changing its mind. Dogmatism is found in CAM, not in science.
 
6. You are just robotically supporting the official party line of mainstream medicine.

When a body of experts evaluates all the published research and issues evidence-based guidelines, it’s worth listening to what they have to say and trying to understand why they say it. Evidence-based guidelines are general guidelines, not cookbooks: doctors are meant to use judgment in applying them to individual patients. There is a difference between the appeal to authority (“He’s a professor at Harvard, so we should believe everything he says”) and accepting the consensus of experts who know more about the field than we do. If ten top mechanics agree that your carburetor needs replacing, it is reasonable to replace the carburetor. It is not reasonable to listen to your barber if he says you can fix the carburetor by sprinkling lemon juice on it. All too often, CAM advocates are the ones who are parroting unreliable “authorities” who don’t know what they’re talking about.
 
7. Doctors are afraid the AMA will take away their licenses if they support unapproved treatments.

This one is really silly, since the AMA has no regulatory authority and the majority of doctors don’t even belong to the AMA. Only state licensing boards can take away a medical license, and they seldom do that even when a doctor is using irrational treatments or outright quackery.
 
8. You skeptics are biased against CAM.

We are biased . . . in favor of science and reason. We are biased against claims that have been tested and disproven and that are incompatible with the rest of scientific knowledge. We are biased against health care providers telling patients things that are not true, presenting opinions as if they were facts. We are biased against using placebos because that constitutes lying, and lying is unethical. We are not biased against any CAM treatment just because it is CAM; we contend that there is only one medicine, that treatments have either been proven to work or they haven’t, and that all claims should be held to the same standard and tested by the same scientific methods.
 
9. Big Pharma is paying you to promote their products and discredit CAM. (The Pharma Shill gambit)

That accusation is unfounded. I don’t know of a single critic of CAM who is being paid by pharmaceutical companies for anything. We don’t accept gifts from drug companies. We don’t get kickbacks for prescribing certain drugs. We have no incentive to favor drugs over other treatments. For that matter, subsidiaries of pharmaceutical companies manufacture many of the diet supplements on the market, so we might just as well accuse you of being paid by Big Pharma to promote its products. What about Big Supplement?
 
10. Doctors are afraid of the competition.

Most doctors already have all the patients they can handle. CAM has only a very small share of the healthcare market. It’s not that doctors are afraid of competition, it’s that they are concerned for their patients’ welfare and don’t like to see them lied to, given ineffective treatments, persuaded to reject effective treatments, and persuaded to risk their health and their money.
 
11. Doctors only treat symptoms, not the underlying cause of disease.

Don’t be silly! Doctors treat the underlying cause whenever possible. If a patient has pneumonia, they don’t just treat the fever, pain, and cough; they figure out which microbe is responsible and provide the appropriate antibiotic. If a broken bone is painful, they don’t just treat the pain, they immobilize the fracture or insert a pin so it can heal. If a patient is in agony from pain in the right lower quadrant of the abdomen, they don’t just treat the pain, they try to figure out if the underlying cause is appendicitis, and if it is, they operate. The very people who accuse doctors of not treating “the underlying cause” are often the ones who think all disease is due to one bogus underlying cause (subluxations, disturbances of qi, poor diet, etc.). I once Googled for “the one true cause of all disease” and found sixty-three of them. (See SI 34(1), January/February 2010, available online at http://www.csicop.org/si/show/one_true_cause_of_all_disease/.) They also tend to use a single treatment (when all you have is a hammer, everything looks like a nail).
incredulous-looking doctor
 
12. Science-based medicine can’t explain why some people get a disease and others don’t, or why people get sick at a particular point in time.

Neither can CAM. But doctors do have some pretty good ideas why it happens: exposure to infections, number of organisms that get into the body, genetic factors, toxins, immune deficiency, chance, and so on. CAM proponents claim to fully understand why it happens, attributing it to some single cause that impairs optimum health (like a subluxation or a disturbance in qi or improper diet). But they have not been able to show they understand the answer to that question any better than conventional medicine does, or that their understanding leads to better patient outcomes.
 
13. Conventional medicine kills patients. (The “Death by Medicine” gambit)

Critics gleefully cite statistics for drug reactions, medical errors, and iatrogenic deaths; their numbers are usually wrong, but even when they are correct, it is irrational to look at those numbers in isolation. Harms must be weighed against benefits. Medicine saves far more people than it kills.
Many of those who develop treatment complications would have died even sooner without treatment. All effective treatments have side effects. Doctors look at the risk/benefit ratios and reject treatments where the risk is greater than the potential benefit. The risk/benefit ratio of CAM should be compared to that of conventional medicine; if there is no benefit, no degree of risk can be justified. There is no evidence that CAM saves lives, and it can kill if it is used in lieu of effective lifesaving treatments.
 
14. Doctors are only out to make money.

Most doctors go into medicine not because they want to get rich but because they want to help people. There are much better ways to get rich. Medical education is long (eleven or more years after high school), grueling, and expensive. Doctors typically work long hours and are on call for emergencies. They incur substantial debts for their education and need years to repay them. The nice houses and cars don’t come until long after graduation, and few doctors make really big bucks. A much easier way to make money is to market bogus remedies or spread misinformation (like Dr. Oz, Andrew Weil, Burzynski, Daniel Amen, Kevin Trudeau, and all the companies that sell diet supplements and miracle weight loss aids). Boiron sold 566 million Euros worth of homeopathic remedies (e.g., water or sugar pills) in 2012.
 
15. Your minds are closed.

We are open to any new treatment, no matter how implausible, if only it can be shown to be safe and effective. Before we can ask how it works, we must ask if it works. If homeopathy had shown the same spectacular degree of success as penicillin, everyone would be using it. When Helicobacter was proposed as the cause of ulcers, it only took a few years for the evidence to accumulate and for antibiotics to become the treatment of choice. When a treatment like acupuncture has been studied for decades and even for centuries and its effectiveness is still uncertain, it is only reasonable to stop studying it and spend our research money elsewhere. We don’t need to keep an open mind about perpetual motion or a flat Earth, and we don’t need to keep an open mind about homeopathy. CAM advocates are the ones whose minds are truly closed. Most of them hold their beliefs so firmly that they reject any evidence to the contrary. One practitioner told me he would keep using his pet method even if it were definitely proven not to work, because “his patients liked it.”
 
16. Doctors don’t do prevention.

They most certainly do! Who do you think invented vaccinations and preventive screening tests? Don’t you know about the U.S. Preventive Services Task Force? Medical doctors routinely advise patients about weight control, diet, seatbelts and other safety topics, alcohol, drugs, domestic violence, exercise, etc. Studies on these topics are constantly appearing in the major medical journals. And there’s no evidence that the preventive efforts of CAM providers result in any better health outcomes than those of MDs.
 
17. Doctors don’t know anything about nutrition.

They understand the science of nutri­tion, advise their patients based on the available scientific evidence, and refer to dietitians for specific diet plans. CAM providers claim to know more about nutrition, but they usually give pseudoscientific or unfounded diet advice.
 
18. CAM is better because it’s holistic.

CAM appropriated that idea from mainstream medicine. In medical school, doctors are taught that good medicine requires caring about the whole patient, not just treating the disease. Part of the standard medical history is a “social history.” Good clinicians consider the patient’s family, lifestyle, job, stresses, education, diet, socioeconomic status, beliefs, and everything about the individual that might have an impact on medical care.
 
19. Alternative treatments are individualized and can’t be subjected to the same tests as pharmaceuticals.

Any treatment can and should be tested by scientific methods. For instance, homeopaths could prescribe individually in whatever way they chose and the remedies they prescribed could then be randomized with placebo controls and dispensed by someone else with double-blinding. And the objective outcomes of individualized CAM treatments can be compared to those of standardized conventional treatments.
 
20. Natural remedies don’t get tested because they can’t be patented and there’s no profit in it.

Nonsense. About half of prescription drugs were developed from plants. The plant itself can’t be patented, but the drug company can isolate the active ingredient and patent that, or even improve on it with a synthetic version that is more effective, more consistent, and has fewer side effects. They can patent a unique method of converting a plant into a pill. There’s plenty of money to be made in herbal medicines, diet supplements, and even plain old vitamins: they generate billions of dollars in profits every year.
 
21. Treatment X worked for me.

Maybe, maybe not. You can only know that you improved after the treatment; you can’t know for sure that you improved because of the treatment. That could be a post hoc ergo propter hoc logical fallacy. You may not be able to imagine any other possible explanation, but that doesn’t mean there isn’t one. Barry Beyerstein explained some of the many ways people come to believe that a bogus therapy works: the disease ran its natural course, a severe phase of cyclic symptoms reverted to the mean, the original diagnosis or prognosis was wrong, more than one treatment was used and credit was given to the wrong one, there was a placebo effect, they confused temporary mood improvement with cure, and psychological needs can distort what people perceive and do. (See http://www.quackwatch.com/01QuackeryRelatedTopics/altbelief.html.)
 
22. You shouldn’t knock it if you haven’t tried it for yourself.

Trying it for yourself is not a reliable way to find out if a treatment works. Personal experience can be very compelling, but it is all too often misleading; in fact, it tends to interfere with one’s ability to objectively evaluate the scientific evidence. If the symptoms resolve, you have no way of knowing whether they resolved due to the treatment or whether they would have gone away anyway without treatment. Or whether some other factor caused the improvement. That’s why science uses control groups. If you try a remedy and get better, it’s reasonable on a practical basis to try it the next time you have the symptoms, but it’s not acceptable to cite your experience as proof that “it works.”
 
23. Huge numbers of people use X, and they couldn’t all be wrong.

Oh yes they could! The argument from popularity is a fallacy: popularity is no indication of truth. Just think of how many people believe their horoscopes or consult psychics. For centuries, everyone believed bloodletting was effective in balancing the humors to treat disease. Only when it was properly tested did doctors discover they’d been killing patients instead of helping them.
 
24. It’s been used for centuries: it must work, or people wouldn’t have kept using it.

This is the argument from antiquity, the “ancient wisdom” fallacy. Our ancestors may have stumbled onto a few effective remedies by trial and error, but they didn’t have the advantage of scientific knowledge, and they didn’t know how to test remedies. It could be ancient wisdom, but it could just as well be ancient error carried over from a prescientific era.
 
25. It’s natural, therefore it’s safe.

Not necessarily. Many natural substances are deadly poisons. Any natural remedy must be tested for efficacy and safety by the same standards we use to test “unnatural” remedies like pharmaceuticals. Herbs are drugs too, and anything that has an effect can have a side effect. If presumably “safe” herbal remedies were tested as rigorously as prescription drugs, some of them would prove unsafe.
 
26. There is proof that X is correlated with Y (cites study).

Correlation does not prove causation. The rise in the number of diagnoses of autism correlates almost perfectly with the rise in the sales of organic food, but that doesn’t mean organic food causes autism. Apparent correlations can be due to chance, error, poor data collection, and many other things. There may not really be a true correlation, and even if there is, that doesn’t tell us whether X caused Y or Y caused X or whether X and Y were both caused by Z.
 
27. There are hundreds of studies that show X works.

Most of the studies cited by supporters are in animals or test tubes; others are opinion pieces, speculations, and irrelevant studies. They won’t tell you that there are other, better quality human clinical studies that show it doesn’t work. Studies can be found to support almost any claim. Half of all published studies are wrong, for a variety of reasons that were explained by Ioannidis. (See http://www.plosmedicine.org/article/info%3Adoi%2F10.1371%2Fjournal.pmed.0020124.) You can’t just look at positive studies: you have to look at the entire body of published evidence. That’s where systematic analyses come in. And even they may not reflect reality: there may be negative studies that we don’t know about because they were never published: the file drawer effect and publication bias. And remember what Carl Sagan said: “Extraordinary claims require extraordinary evidence.” It would take an extraordinary amount of evidence indeed to overthrow all the established science that tells us homeopathy can’t possibly work as advertised.
 
28. We don’t need studies; we have plenty of testimonials.

Ten anecdotes are no better than one; 100 are no better than ten. Anecdotal evidence is unreliable, no matter how many anecdotes you have accumulated. This lesson has had to be relearned over and over again throughout the history of medicine. Just think of how many testimonials there were for bloodletting throughout the Middle Ages and beyond. Anecdotes are useful, but only as a guide to what to investigate with scientific studies.
 
29. Are you accusing us of lying?

No. We believe you are sincerely telling the truth as you see it. We believe you had the experience you related. But that doesn’t mean your interpretation of your experience is true.
 
30. If you think X doesn’t work, why don’t you do a study to prove it?

It’s not that we think X doesn’t work, it’s that there is no evidence to make us think it does work. It is not up to us to prove a negative. The burden of proof is on the person making the claim. If I told you that putting a poker chip in your gas tank would give you better mileage, you should ask me to prove it. You are not obligated to design and conduct a controlled study to prove it doesn’t work.
 
31. The medical establishment would drum out any doctor who tried to publish studies going against the party line, showing that X worked or that condition Y was real.

Quite the contrary. Peer review would critique the study. If it was a good study, it would be published; then others would investigate. A doctor who discovered a new disease or treatment would be honored. The idea of treating ulcers with antibiotics instead of antacids went against the party line, but Drs. Marshall and Warren won a Nobel Prize for discovering the role of Helicobacter pyloris. Luc Montagnier was awarded a Nobel Prize for discovering the virus that causes AIDS only two years after the first reports of “gay-related immune deficiency syndrome.” Real diseases and new treatments are quickly recognized by the medical community.
 
32. You can’t know about it if you haven’t experienced it.

Yes you can. You don’t have to have been bitten by a snake to know how to treat a snakebite. Male obstetricians are proof that you can deliver babies without having been pregnant yourself. We can know that antibiotics work for pneumonia without having had pneumonia ourselves. We can read the medical literature and learn far more from it than we could ever hope to learn from personal experience.
 
33. They laughed at Galileo. (The Galileo gambit)

Or any other lone genius who was ignored in his time. Sure, any crank might turn out to be right, but most cranks don’t. If someone makes a questionable claim, we can look at his evidence. If he makes an idiotic claim without evidence, he deserves to be laughed at.
 
34. X is officially approved by . . . so it must work.

Proponents cite some organization or authority, such as Medicare, insurance companies, state licensing boards for acupuncture/chiropractic/ naturopathy, the WHO, the courts, some hospital or clinic. . . . These organizations are not authorities when it comes to scientific truth; often they are not even experts in science. They are influenced by factors like politics, expediency, customer demand, economics, lobbyists, legal maneuvering, etc. No matter how many authorities approve of a treatment, it must still be properly tested to determine safety and efficacy.
 
35. The NCCAM is studying it, so there must be something to it.

The National Center for Complementary and Alternative Medicine is strongly influenced by politics and has wasted millions of taxpayer dollars studying improbable treatments with no scientific merit. The studies they have funded have never proved that any CAM treatment was effective. (See “Measuring Mythology: Startling Concepts in NCCAM Grants,” SI, January/February 2012.)
 
36. Studies show it doesn’t work, but what if it only works for me and a small minority of people like me?

That’s possible, but not very probable. If it worked for a significant minority of people, it would have shown up in the data, would have affected the statistics, and would have changed the outcome of the study. If the minority was too small to affect the study outcome, what’s the likelihood that you would be one of the special few that it actually worked for? The odds are against it, and there is no rational way to choose the one treatment that might work for you out of all the various treatments that have been tested and shown to be ineffective.
 
37. I was misdiagnosed/mistreated by a doctor. I will never consult an MD again. Now I rely on my naturopath/chiropractor/acupuncturist/ homeopath (or on the testimonials of my friends).

If you get food poisoning, do you stop eating? If you get a bad batch of gasoline do you start putting water in the fuel tank instead? Anyone can make a mistake, and some doctors are incompetent. The rational solution is to find a more competent science-based doctor, not to switch to a less competent non-science-based source of advice.
 
38. I can’t afford conventional medicine; CAM costs less.

If it costs less but doesn’t work, that’s false economy. Water costs a lot less than gasoline, but it won’t run your car.
 
39. My doctor said nothing was wrong with me, but my CAM provider did a test conventional medicine doesn’t do and found a condition that needed to be treated.

If conventional doctors don’t do a test, didn’t you ever wonder why they don’t? Maybe they have a good reason. Has the test been validated? What is its specificity and sensitivity? Is a positive result more likely to be a false positive than a true positive? It may well be one of the many bogus tests and bogus diagnoses that abound in the world of CAM.
 
40. Conventional medicine doesn’t have an effective treatment for my disease.

CAM doesn’t either. They may tell you they do, but they will only offer false hope and waste your time and money. It might be wiser to accept that there is no effective treatment and concentrate on finding ways to cope with your illness and improve your quality of life.
 
41. Conventional medicine does some terrible things. Why don’t you put your own house in order before you criticize others?

Conventional medicine is flawed, but it is constantly criticizing and policing itself. Current practices are continually being reevaluated and discarded if they are found ineffective. CAM has no such tradition of self-criticism; CAM practitioners never reject any treatment even if the evidence clearly shows it doesn’t work.
 
42. Only 15 percent of mainstream medicine is based on evidence.

False. That estimate was based on a misunderstanding of a study from half a century ago that was never intended to estimate the percentage of treatments based on evidence. Bob Imrie reviewed the literature and found that 78 percent of treatments are based on compelling evidence, 38 percent on randomized controlled trials. (See http://www.veterinarywatch.com/CTiM.htm.) Academic neurologist Steven Novella estimates that nearly 100 percent of the treatments he recommends are based upon the best available evidence combined with plausible and rational extension of what is known, as well as adequate evidence for lack of harm (http://theness.com/neurologicablog/index.php/how-much-modern-medicine-is-evidence-based/). But think about it: even if a system were only 15 percent based on the evidence from scientific studies, wouldn’t that be better than a system based on nothing but testimonials?
 
43. Why would so many doctors use CAM and recommend it if it didn’t work?

Medicine is an applied science, and doctors are not scientists. Medical students have to absorb vast amounts of information in a short time; they are unlikely to question their teachers, they don’t have the time to read the experimental evidence for what they are taught, they are not taught how to evaluate research studies, and they are not educated about the flaws of CAM. A lot of MDs know about science but don’t really understand the scientific method, and there are those who understand it but choose to ignore it. There are those who are “shruggies,” who think false claims from CAM don’t matter, and there are those who are too overworked to keep up with evolving knowledge.
And finally:
 
44. If CAM makes people feel better, why deny them that? Even if it’s just a placebo, isn’t that a good thing?

No. Placebos are unethical. Placebo effects tend to be small in magnitude and brief in duration, and disappointment soon ensues. Using a placebo may delay or replace effective treatment. Placebos can make asthma patients subjectively feel like they can breathe better when objectively their lung function is unimproved and they are still at risk—asthma attacks can be fatal.

As the T-shirt says, “Science: It works, bitches.” No other basis of medical care can begin to compete with it. The doctor-bashers are playing a losing game.

Harriet Hall

Harriet Hall, MD, a retired Air Force physician and flight surgeon, writes and educates about pseudoscientific and so-called alternative medicine. She is a contributing editor and frequent contributor to the Skeptical Inquirer and contributes to the blog Science-Based Medicine. She is author of Women Aren’t Supposed to Fly: Memoirs of a Female Flight Surgeon and coauthor of the 2012 textbook Consumer Health: A Guide to Intelligent Decisions.

Hunt Continues for Signs of Universe's Incredible Big Bang Expansion


This image by Europe's Planck satellite captures the same region of sky observed by the ground-based BICEP2 project. Planck data suggest that much of the signal the BICEP2 team interpreted as evidence of cosmic inflation was actually caused by interstella


This image by Europe's Planck satellite captures the same region of sky observed by the ground-based BICEP2 project. Planck data suggest that much of the signal the BICEP2 team interpreted as evidence of cosmic inflation was actually caused by interstellar dust.: ESA/Planck Collaboration. Acknowledgment: M.-A. Miville-Deschênes, CNRS - Institut d'Astrophysique Spatiale, Université Paris-XI, Orsay, France



















Mike Wall
Original link:  http://www.space.com/28516-cosmic-inflation-gravitational-waves-hunt.html

The search for evidence of the universe's ancient faster-than-light expansion is heating up, just after a much-ballyhooed recent detection was deemed a false alarm.

In March 2014, a team of scientists using the BICEP2 telescope at the South Pole announced that they had spotted an apparent signal of primordial gravitational waves in the cosmic microwave background (CMB), the light that began saturating the universe about 380,000 years after the Big Bang.

The announcement made a big splash, and for good reason. For starters, it suggested that gravitational waves — hypothesized ripples in the fabric of space-time — do indeed exist. But more important, the finding seemed to confirm the basics of cosmic inflation theory, which posits that the universe expanded dramatically in the first tiny fractions of a second after the Big Bang (and produced primordial gravitational waves in the process). [Cosmic Inflation and the Big Bang Explained (Infographic)]


Just last month, however, the purported discovery vanished in a cloud of dust: Data from BICEP2, the Keck Array (also at the South Pole) and Europe's Planck spacecraft showed that much of the supposed gravitational-wave signal — curly patterns in CMB polarization known as "B-modes" — was actually caused by interstellar dust.

This news is reshaping and refining, rather than scuttling, the hunt for primordial gravitational waves, as researchers figure out how best to hunt for CMB B-modes in a dustier-than-expected sky.
"We're in a very good place right now to make good progress on this question," said John Kovac, of the Harvard-Smithsonian Center for Astrophysics in Cambridge, Massachusetts, leader of the team that announced the discovery last March.
"We don't know what the answer is going to converge to, but we do know that progress is going to be very rapid," Kovac told Space.com. "It's going to be an exciting ride, and we can expect multiple rounds coming up in the next year or so."

Expanding the search

The supposed B-mode detection was based primarily on BICEP2 measurements of CMB polarization in one small patch of sky at a single frequency (150 gigahertz). Models available at the time suggested that galactic dust emission, which can produce B-mode signals, in that part of the sky is quite low, discovery team members said.
 B-mode pattern observed by the BICEP2 telescope, which researchers originally interpreted as evidence for inflationary gravitational waves.
Credit: BICEP2 Collaboration

But Planck's observations showed that those models — and the CMB B-mode search strategy — needed to be revised. Data from the spacecraft, which studied the cosmic microwave background in nine different frequencies from 2009 to 2013, revealed that foreground dust emission is relatively high over the entire sky.
 
"Now, people really understand that observing at more than one frequency is completely mandatory," said Brendan Crill, of NASA's Jet Propulsion Laboratory in Pasadena, California, a member of both the BICEP2 and Planck teams. (The two groups worked together to produce the new study, which has been submitted to the journal Physical Review Letters. BICEP, incidentally, is short for "Background Imaging of Cosmic Extragalactic Polarization.")

"You really have to field instruments that are able to look at CMB and also dust, and distinguish the two," Crill told Space.com. [The Search for Gravitational Waves (Gallery)]

And that's just what Kovac and his colleagues are now doing. For the past 13 months, they've been using the Keck Array to measure CMB polarization at a second frequency, 95 gigahertz. Dust emission is expected to be five times weaker at this new frequency, Kovac said.

"Any signal that is in common between 95 gigahertz and 150 gigahertz — those two frequencies — is likely to be mostly CMB B-modes," he said. "So, looking for that cross correlation is going to be a really powerful next analysis."

That analysis is already underway, and is pretty far along, Kovac added.

"We don't know the final answer yet, but hopefully, within just a couple of months — we certainly expect it this spring," he said. "So it's not going to take very long to make the next big jump in this question."

There's no guarantee that the "big jump" will be a detection of B-modes from inflation, Kovac
stressed. Rather, the constraints will simply tighten, in one direction or another. And they should continue to tighten over time; two newly installed Keck receivers are now studying the CMB sky at 220 gigahertz as well.

"So we have three colors now that are operating at very high sensitivity," Kovac said. "We can expect ultrasensitive maps over the next year's worth of data to come out in three frequencies now, and that should continue to increase the confidence of whatever interpretation is favored by the data."

And Kovac and his group aren't alone in the B-mode hunt. Other teams — including those affiliated with the Spider balloon experiment, the South Pole Telescope and the ACT and POLARBEAR projects, which both study the sky using telescopes in Chile — are gathering supersensitive CMB data as well

The way forward

"The current generation [of instruments], I think, should be able to get a factor of five to 10 better constraints on the amplitude of [primordial] gravitational waves in the next three to five years," Crill said. "As to whether or not we'll see anything, that's really hard to say — the theoretical predictions are kind of all over the place."

Therefore, the failure of these ongoing searches to find B-modes in the CMB wouldn't necessarily be a knife through the heart of cosmic inflation theory; primordial gravitational waves may simply be very difficult to detect. (Their amplitude depends on the energy scale of inflation, which is unknown.)

If that's the case, a comprehensive ground-based survey, featuring sensitive new detectors and new telescopes at various spots around the world, may be required to confirm the existence of B-modes in the CMB, Kovac said. Such a survey could probably be performed for $100 million or less, he added.

Kovac and Crill would also love to see a new CMB-mapping space mission sometime down the road. (There have been three such missions to date: NASA's Cosmic Background Explorer and Wilkinson Microwave Anisotropy Probe, and Planck.)

"If evidence for inflationary gravitational waves starts to look quite firm, at whatever level the data prefers, the comprehensive mission that will map that signal out in detail probably should be from space, ultimately," Kovac said. "That'll get all the information."

Follow  on Twitter @michaeldwall and Google+. Follow us @Spacedotcom, Facebook or Google+. Originally published on Space.com.

Neutronium

From Wikipedia, the free encyclopedia

Neutronium (sometimes shortened to neutrium[1]) is a proposed name for a substance composed purely of neutrons. The word was coined by scientist Andreas von Antropoff in 1926 (before the discovery of the neutron) for the conjectured "element of atomic number zero" that he placed at the head of the periodic table.[2][3] However, the meaning of the term has changed over time, and from the last half of the 20th century onward it has been also used legitimately to refer to extremely dense substances resembling the neutron-degenerate matter theorized to exist in the cores of neutron stars; henceforth "degenerate neutronium" will refer to this. Science fiction and popular literature frequently use the term "neutronium" to refer to a highly dense phase of matter composed primarily of neutrons.

Neutronium and neutron stars

Neutronium is used in popular literature to refer to the material present in the cores of neutron stars (stars which are too massive to be supported by electron degeneracy pressure and which collapse into a denser phase of matter). This term is very rarely used in scientific literature, for three reasons:
  • There are multiple definitions for the term "neutronium".
  • There is considerable uncertainty over the composition of the material in the cores of neutron stars (it could be neutron-degenerate matter, strange matter, quark matter, or a variant or combination of the above).
  • The properties of neutron star material should depend on depth due to changing pressure (see below), and no sharp boundary between the crust (consisting primarily of atomic nuclei) and almost protonless inner layer is expected to exist.
When neutron star core material is presumed to consist mostly of free neutrons, it is typically referred to as neutron-degenerate matter in scientific literature.[4]

Neutronium and the periodic table

The term "neutronium" was coined in 1926 by Andreas von Antropoff for a conjectured form of matter made up of neutrons with no protons or electrons, which he placed as the chemical element of atomic number zero at the head of his new version of the periodic table. It was subsequently placed in the middle of several spiral representations of the periodic system for classifying the chemical elements, such as those of Charles Janet (1928), E. I. Emerson (1944), John D. Clark (1950) and in Philip Stewart's Chemical Galaxy (2005).

Although the term is not used in the scientific literature either for a condensed form of matter, or as an element, there have been reports that, besides the free neutron, there may exist two bound forms of neutrons without protons.[5] If neutronium were considered to be an element, then these neutron clusters could be considered to be the isotopes of that element. However, these reports have not been further substantiated.
  • Mononeutron: An isolated neutron undergoes beta decay with a mean lifetime of approximately 15 minutes (half-life of approximately 10 minutes), becoming a proton (the nucleus of hydrogen), an electron and an antineutrino.
  • Dineutron: The dineutron, containing two neutrons was unambiguously observed in the decay of beryllium-16, in 2012 by researchers at Michigan State University.[6][7] It is not a bound particle, but had been proposed as an extremely short-lived state produced by nuclear reactions involving tritium. It has been suggested to have a transitory existence in nuclear reactions produced by helions that result in the formation of a proton and a nucleus having the same atomic number as the target nucleus but a mass number two units greater. There had been evidence of dineutron emission from neutron-rich isotopes such as beryllium-16 where mononeutron decay would result in a less stable isotope. The dineutron hypothesis had been used in nuclear reactions with exotic nuclei for a long time.[8] Several applications of the dineutron in nuclear reactions can be found in review papers.[9] Its existence has been proven to be relevant for nuclear structure of exotic nuclei.[10] A system made up of only two neutrons is not bound, though the attraction between them is very nearly enough to make them so.[11] This has some consequences on nucleosynthesis and the abundance of the chemical elements.[9][12]
  • Trineutron: A trineutron state consisting of three bound neutrons has not been detected, and is not expected to exist even for a short time.
  • Tetraneutron: A tetraneutron is a hypothetical particle consisting of four bound neutrons. Reports of its existence have not been replicated. If confirmed, it would require revision of current nuclear models.[13][14]
  • Pentaneutron: Calculations indicate that the hypothetical pentaneutron state, consisting of a cluster of five neutrons, would not be bound.[15]
Although not called "neutronium", the National Nuclear Data Center's Nuclear Wallet Cards lists as its first "isotope" an "element" with the symbol n and atomic number Z = 0 and mass number A = 1. This isotope is described as decaying to element H with a half life of 10.24±0.02 min.

Properties

Due to beta (β) decay of mononeutron and extreme instability of aforementioned heavier "isotopes", degenerate neutronium is not expected to be stable under ordinary pressures. Free neutrons decay with a half-life of 10 minutes, 11 seconds. A teaspoon of degenerate neutronium gas would have a mass of two billion tonnes, and if moved to standard temperature and pressure, would emit 57 billion joules of β decay energy in the first half-life (average of 95 MW of power).[16] This energy may be absorbed as the neutronium gas expands. Though, in the presence of atomic matter compressed to the state of electron degeneracy, the β decay may be inhibited due to Pauli exclusion principle, thus making free neutrons stable. Also, elevated pressures should make neutrons degenerate themselves. Compared to ordinary elements, neutronium should be more compressible due to the absence of electrically charged protons and electrons. This makes neutronium more energetically favorable than (positive-Z) atomic nuclei and leads to their conversion to (degenerate) neutronium through electron capture, a process which is believed to occur in stellar cores in the final seconds of the lifetime of massive stars, where it is facilitated by cooling via νe emission. As a result, degenerate neutronium can have[clarification needed] a density of 4×1017 kg/m3,[17] roughly 13 magnitudes denser than the densest known ordinary substances. It was theorized that extreme[which?] pressures may deform the neutrons into a cubic symmetry, allowing tighter packing of neutrons,[18] or cause a strange matter formation.

In fiction

The term "neutronium" has been popular in science fiction since at least the middle of the 20th century. It typically refers to an extremely dense, incredibly strong form of matter. While presumably inspired by the concept of neutron-degenerate matter in the cores of neutron stars, the material used in fiction bears at most only a superficial resemblance, usually depicted as an extremely strong solid under Earth-like conditions, or possessing exotic properties such as the ability to manipulate time and space. In contrast, all proposed forms of neutron star core material are fluids and are extremely unstable at pressures lower than that found in stellar cores. According to one analysis, a neutron star with a mass below about 0.2 solar masses will explode.[19]

Noteworthy appearances of neutronium in fiction include the following:
  • In Hal Clement's short story Proof (1942), neutronium is the only form of solid matter known to Solarians, the inhabitants of the Sun's interior.
  • In Vladimir Savchenko's Black Stars (1960), neutronium is a mechanically and thermally indestructible substance. It is also used to make antimatter, which leads to an annihilation accident.
  • In Doctor Who (1963), neutronium is a substance which can shield spaces from time-shear when used as shielding in time-vessels.
  • In Larry Niven's Known Space fictional universe (1964), neutronium is actual neutron star core material, but it is stable in smaller quantities.
  • In the Star Trek universe, neutronium is an extremely hard and durable substance, often used as armor, which conventional weapons cannot penetrate or even dent. The substance is referred to in the storyline dialogue of "The Doomsday Machine", "A Piece of the Action", "Evolution", "Relics", "To the Death", "What You Leave Behind", "Phage", "Prey", and "Think Tank".
  • In Peter F. Hamilton's novel The Neutronium Alchemist (1997), neutronium is created by the "aggressive" setting off of a superweapon.
  • In the Stargate universe, neutronium is a substance which is the basis of the technology of the advanced Asgard race, as well as a primary component of human-form Replicators.
  • In Greg Bear's The Forge of God (1987), alien aggressors inject two high-mass weapons made of neutronium and antineutronium into the Earth which orbit the Earth's core until they meet and annihilate, destroying the planet.
  • Action Comics #376 (May, 1969), "The Only Way to Kill Superman"[20] has Superman flying into a white dwarf star to grab a couple of handfuls of neutronium to fashion earplugs that will protect his ears from a hypersonic blast. In the panel on page seven, he states that each handful weighs a million tons.

Vernor Vinge



From Wikipedia, the free encyclopedia

Vernor Vinge
Vernor Vinge.jpg
Born Vernor Steffen Vinge
(1944-10-02) October 2, 1944 (age 70)
Waukesha, Wisconsin, US
Occupation Computer scientist
Nationality American
Period 1966–present
Genre Science fiction
Notable works True Names (1981),
A Fire Upon the Deep (1992),
"The Coming Technological Singularity" (1993),
Fast Times at Fairmont High (2002)
Notable awards Hugo Awards,
  Best Novel: 1993, 2000, 2007;
  Best Novella: 2003, 2005
Prometheus Awards:
  1987, 2000, 2004, 2007, 2014 Special Award for Lifetime Achievement
Spouse Joan D. Vinge (1972–1979, divorced)
Vernor Steffen Vinge (Listeni/ˈvɜrnər ˈvɪn/; born October 2, 1944) is a retired San Diego State University (SDSU) Professor of Mathematics, computer scientist, and science fiction author. He is best known for his Hugo Award-winning novels and novellas A Fire Upon the Deep (1992), A Deepness in the Sky (1999), Rainbows End (2006), Fast Times at Fairmont High (2002), and The Cookie Monster (2004), as well as for his 1984 novel The Peace War and his 1993 essay "The Coming Technological Singularity", in which he argues that the creation of superhuman artificial intelligence will mark the point at which "the human era will be ended", such that no current models of reality are sufficient to predict beyond it.
Within thirty years, we will have the technological means to create superhuman intelligence. Shortly after, the human era will be ended.
—"The Coming Technological Singularity" by Vernor Vinge, 1993

Life and work

Vinge published his first short story, "Bookworm, Run!", in the March 1966 issue of Analog Science Fiction, then edited by John W. Campbell. The story explores the theme of artificially augmented intelligence by connecting the brain directly to computerised data sources. He became a moderately prolific contributor to SF magazines in the 1960s and early 1970s. In 1969, he expanded the story "Grimm's Story" (Orbit 4, 1968) into his first novel, Grimm's World. His second novel, The Witling, was published in 1975.

Vinge came to prominence in 1981 with his novella True Names, perhaps the first story to present a fully fleshed-out concept of cyberspace,[1] which would later be central to cyberpunk stories by William Gibson, Neal Stephenson and others.

His next two novels, The Peace War (1984) and Marooned in Realtime (1986), explore the spread of a future libertarian society, and deal with the impact of a technology which can create impenetrable force fields called 'bobbles'. These books built Vinge's reputation as an author who would explore ideas to their logical conclusions in particularly inventive ways. Both books were nominated for the Hugo Award, but lost to novels by William Gibson and Orson Scott Card.[2][3]

These two novels and True Names also emphasized Vinge's interest in the technological singularity. True Names takes place in a world on the cusp of the Singularity. The Peace War shows a world in which the Singularity has been postponed by the Bobbles and a global plague, while Marooned in Realtime follows a small group of people who have managed to miss the Singularity which otherwise encompassed Earth.

Vinge won the Hugo Award (tying for Best Novel with Doomsday Book by Connie Willis) with his 1992 novel, A Fire Upon the Deep.[4] In it, he envisions a galaxy that is divided up into 'zones of thought', in which the further one moves away from the center of the galaxy, the higher the level of complexity one can achieve. Nearest the center is 'The Unthinking Depths', where even human-level intelligence is impossible. Earth is in 'The Slow Zone', in which faster-than-light (FTL) travel cannot be achieved. Most of the book, however, takes place in a zone called 'The Beyond', where the computations necessary for FTL travel are possible, but transcendence beyond the Singularity to superhuman intelligence is not. In the last zone, 'The Transcend', there are apparently no limitations at all. The Beyond, therefore, permits a classic space opera, using technology that would push past the Singularity. Fire includes a large number of additional ideas making for an unusually complex and rich universe and story.

A Deepness in the Sky (1999) was a prequel to Fire, following competing groups of humans in The Slow Zone as they struggle over who has the rights to exploit a technologically emerging alien culture. In addition, Deepness explores the themes of technological freedom vs. technology as a tool of enslavement and control, among other deep political issues. Deepness won the Hugo Award for Best Novel in 2000.[5]

Vinge's novellas Fast Times at Fairmont High and The Cookie Monster also won Hugo Awards in 2002 and 2004, respectively.[6][7]

Vinge's 2006 novel, Rainbows End, set in a similar universe to Fast Times at Fairmont High, won the 2007 Hugo Award for Best Novel.[8] His next novel was released in October 2011. The Children of the Sky is a sequel to A Fire Upon the Deep, set approximately 10 years later.[9][10]

Vinge retired in 2000 from teaching at San Diego State University, in order to write full-time. Most years, since its inception in 1999, Vinge has been on the Free Software Foundation's selection committee for their Award for the Advancement of Free Software. Vernor Vinge was Writer Guest of Honor at ConJosé, the 60th World Science Fiction Convention in 2002.[11]

Vinge was formerly married to Joan D. Vinge, also an accomplished science fiction author.[12]

Themes

The concepts of artificial intelligence and technological singularity inform much of Vinge's writing, whether his stories embrace them (Bookworm, Run!; True Names; Rainbows End) or construct worlds to specifically explain the non-existence of these phenomena (A Fire Upon the Deep, A Deepness in the Sky).

A pro-market/anarcho-capitalist theme can be seen in other works, either explicitly (The Ungoverned, Marooned in Realtime) or more quietly (the confrontation between the Emergents and the Qeng Ho in A Deepness in the Sky).[citation needed]

References in other works

In Gene Wolfe's The Fifth Head of Cerberus (published in 1972, before Vinge had written his best-known work), the narrator finds a collection of Vernor Vinge stories on a top shelf of a far-future library on a distant world, though the cover has been so worn down that he thinks a librarian must have mistaken the "V. Vinge" on the spine as "Winge".

In David Brin's Kiln People, there is a reference to the main character experiencing something like "Vingeian focus," a quick reference to A Deepness in the Sky. Vinge's review of the book is featured on the back cover.

The "Vinge catastrophe" is mentioned in chapter 8 of Charles Stross' novel Accelerando, and also on Ian Douglas' Star Carrier series.

In the sleeve notes for Harmonic 313's album When Machines Exceed Human Intelligence, Mark Pritchard refers to his "good friend Vernor Vinge", crediting him for naming the "technological singularity".

In Robert J. Sawyer's WWW:Watch, a novel featuring an emerging artificial intelligence, a character quotes from Vinge's 1993 essay The Coming Technological Singularity in reference to what is happening. (The listener is surprised to hear that the author's name is pronounced "Vinjee" instead of rhyming with "hinge".)

The 'Tine' race, introduced in A Fire Upon the Deep, is an example of a gestalt-sentient species: a race that is only sentient in a grouping of individually non-sentient members (distinct from the more common group consciousness in that individual members of such are still themselves sentient or a hive mind in that there is no single sentient entity controlling large groups of non-sentients). Anvil of Stars, by Greg Bear, also makes use of this type of alien with its 'Cord' race, although as both books were released in 1992, it is unlikely that one references the other.

In the webcomic Questionable Content, a fictional speech on A.I. rights is quoted. The full speech, available on the artist's website,[13] names the speaker as "V. Vinge" in homage to Vinge.

Bibliography

Novels

Realtime/Bobble series

Zones of Thought series

Collections

Uncollected short fiction


Analytical skill

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