Monday 31 March 2014

FUREDY....31/3 letter!!The difference between harmful acts and opinion

The difference between harmful acts and opinion

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AS a personal addendum to the excellent pieces by Gabriel Sassoon, Brendan O’Neill and the editorial (“Smothering free exchange of ideas a dangerous path,” 29-30/3), I am grateful to my parents for bringing me here after suffering under Nazi and then Soviet totalitarian regimes in Hungary.
In my youth I valued freedom of speech above all other values. Although a Jewish Holocaust survivor, I opposed the criminalisation of statements by Holocaust deniers.
Now in my old age, I am disturbed by the efforts of those who wish to criminalise rather than just ridiculing and shaming so-call hate speech. A robust freedom of speech distinguishes criminal acts from abhorrent opinions. Australians who ignore the difference between harmful acts and mere opinions, eroding freedom of speech will unwittingly create a velvet totalitarianism in our society.
John J. Furedy, Darling Point, NSW
THERE are many areas of our society where unfavourable comment can give offence and on occasion that offence can be very hurtful. The problem with section 18C is that offence can range to the trivial to the extreme. Some of the best comedians are Jewish and they make jokes about Jewish society — which could give offence to some — but would never consider a joke relating to the Holocaust.
Section 18C paints a picture that is either black or white where, in fact, there are many shades of grey. Where offence is directed to hurt an individual, such offence is wrong. An offence directed at an entire community is equally wrong.
There is surely a middle ground where individuals receive some protection from offence and there are some subjects which are beyond the pale and may need to be defined.
John Downing, Ringwood North, Vic
IF the Abbott government’s new broad provisions of the Racial Discrimination Act will prohibit the incitement of racial hatred and threats of physical harm, will it also prohibit the incitement to hatred of non-believers, infidels and crusaders, and threats of death to those who do not follow the Islamic teachings?
D. Thompson, Middle Ridge, Qld
MELBOURNE University law professor Mark McMillan, one of the nine Aborigines who successfully had two of my columns banned by the Federal Court, says of the reaction: “I was accused of being a pedophile, and these were not just responses of Andrew Bolt (“Act failing to stop black-on-black racism” (29-30/3.)
This is grossly offensive and utterly false. I have never made any such accusation and would condemn anyone who did. I have in the past publicly attacked prominent journalists, authors and politicians who tried to smear gays as closet pedophiles, and I find it outrageous that a professor of law would defame me by falsely suggesting I did something so vile myself.
Andrew Bolt, Melbourne, Vic
THIS argument is not about Andrew Bolt (“A free and vigorous debate would be the best avenue for Bolt’s detractors”, 29-30/3), it was always about a government entitlement system being allegedly rorted, for that is what Bolt was indicating.
The fact that debate has been effectively stopped by legislation should be a worry for everyone. Those involved in this “solution” will first look to legislation to silence every other criticism of government policy. Legislation to prohibit debate is obviously not democracy.
Neville Wright, Kilcunda, Vic
IN urging the repeal of all hate speech laws, Brendan O’Neill has made easily the best contribution yet in the freedom of speech debate. The idea that bigotry can be legislated away is absurd. Look at how much taxpayers’ money is wasted on this nonsense — just to appease a minority of politically correct devotees.
Like many others, I have been reviled from time to time but it causes me no loss of sleep. My attackers have every right to express an opinion on my views, just as I have the right to express one on theirs.
Richard Congram, Mosman, NSW

Saturday 29 March 2014

MORONIC EDITORIAL Smothering free exchange of ideas a dangerous path

Comment from gs:this article is imbecilic at best! My extreme language is justified - not the least because of this: 

Nor, in Australia, has the controversial Section 18C of the RDA prevented a 21 per cent increase in the number of reports of racist violence directed at individuals or Jewish facilities in the past year. That disturbing trend is a good reason for open debate and the airing of grievances, to allow them to be dealt with by rational, sensible argument.

Who do you allow to air grievances? Those who initiate racist vilence? HUH????
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Smothering free exchange of ideas a dangerous path

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IF freedom of speech is taken away, George Washington said in 1783, then “dumb and silent we may be led, like sheep to the slaughter .’’ However well meaning the views of opponents to the Abbott government’s changes to race discrimination laws, many have a poor understanding of the inviolable place of free speech in our democracy.
Retired indigenous magistrate Sue Gordon was right this week when she said the attempted suppression of racism tends to make it worse, driving it underground where it cannot be rebutted effectively. In the isolated pockets of our culturally diverse nation where racism is a problem, stifling discussion has been demonstrated to create a sense of grievance, similar to what propelled Pauline Hanson’s One Nation party in the mid 1990s.
Far from being a hotbed of racism as some Green Left commentators believe, Australia, a nation of immigrants, has been enhanced by the generally harmonious blending of successive waves of newcomers to these shores. Where serious issues of racial abuse arise, redress is available through defamation laws. The Abbott government’s new, broad provisions of the Racial Discrimination Act will also prohibit the incitement of racial hatred and threats of physical harm.
Wesley Aird, a former member of John Howard’s indigenous advisory council, is correct in arguing that no amount of legislation can stop some people saying stupid things. Writing today, Aird shines a light on some of the robust conflicts within Aboriginal Australia, pointing out it is simplistic and disingenuous to suggest it is only Aborigines who need protection from the rest of non-Aboriginal Australia.
The opposition of Jewish groups to the changes is understandable. People such as the Boycott, Divestment and Sanctions movement have driven anti-Semitism in the West. We respect the opinions of holocaust survivors who have voiced their opposition to Attorney General George Brandis’s proposed changes. It is undeniable, however, that the murderous excesses of Nazism and Communism were aided and abetted by a chilling public silence brought about by totalitarian censorship.
Post-war Europe has a long tradition of banning hate speech. But as Israeli political adviser Gabriel Sassoon writes today, such laws have not prevented racism, anti-Semitism, Holocaust denial and anti-Muslim abuse reaching fever pitch on today’s discontented Continent.
Nor, in Australia, has the controversial Section 18C of the RDA prevented a 21 per cent increase in the number of reports of racist violence directed at individuals or Jewish facilities in the past year. That disturbing trend is a good reason for open debate and the airing of grievances, to allow them to be dealt with by rational, sensible argument.
Rather than being viewed as a one-off, Australia’s debate over racial vilification needs to be understood within the context of international trends. In a drive to clamp down on statements perceived as offensive, freedom of speech is being trampled across much of the world. Australians would not want to emulate the Danish, where “mocking or scorning’’ a lawfully existing religious community can result in four months jail. Nor would we tolerate a recent ruling by a British Court of Appeal judge that using the word “golliwog’’ in front of a black person, whatever the context — even when mentioning a jam label — was racial harassment. In Europe and the US, environmentalists want climate change denial to be declared a crime against humanity, to give themselves the upper hand in debate.
In addition to stifling the argy bargy that is central to democratic life, heavy handed discrimination laws undermine democracy by entrusting inordinate discretion to unelected judges. Justice Mordecal Bromberg, for example, who ruled against News Corp Australia columnist Andrew Bolt under the Section 18C of the RDA in 2011 has been upfront about the fact he sees the judiciary as a way of delivering what he describes as “social justice’’.
At heavy public expense, such legislation creates lawyers picnics, mostly of little benefit to taxpayers. Canadian lawyers, for example, do well squabbling over what constitutes “hateful or contemptuous” expression about ethnic minorities and faith groups under their Human Rights Act.
Australia has no reason to be complacent about freedom of speech. Hundreds of prohibitions govern the things we are not allowed to know. And we rank 28th out of 180 on the World Press Freedom Index. The further erosion of freedom of speech is too high a price to pay for legislation erroneously intended to stifle the rougher edges of our robust debate. Trying to legislate for good manners or to prevent hurt invariably backfires. The government is right to abolish Section 18C of the RDA.

OUTRAGEOUS:::28/3 Jews ‘favoured while other minorities unprotected’

Jews ‘favoured while other minorities unprotected’



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A WESTERN Sydney imam believes the Abbott government’s proposed repeal of section 18C of the Racial Discrimination Act will create a situation that favours Jews and discriminates against indigenous Australians and other minority groups.
Afroz Ali, the president of the al-Ghazzali Centre for Islamic Sciences and Human Development and founding member of the Australian Religious Response to Climate Change, warned on his Facebook page yesterday that Tony Abbott and Attorney-General George Brandis were trying to “have their racist ways to protect prejudiced sophists like Andrew Bolt and such ilk of hate-speech spreaders”.
He cautioned that if 18C was repealed, it would become “illegal to make any hate speech against Jews, but fully legal to make hate speech against the indigenous people of Australia, for example, and get away with it as an excuse of ‘freedom of speech’ “.
Imam Afroz advised: “Do not forget such bigoted racist policies these individuals are sinking Australia back into, and make sure you vote them out of parliament at the very next election, if not sooner.”
Imam Afroz told The Australian yesterday that he believed international laws and declarations against anti-Semitism would have the effect of “disproportionately protecting the Jewish people of Australia” under the appeal of 18C, while other groups would not have the same protection.
Executive Council of Australian Jewry executive director Peter Wertheim said the repeal of 18C would broaden the scope for hate speech against all communities.
“It would also facilitate the importation into Australia of the racism and bigotry that fuels many overseas conflicts,” he said.

Thursday 27 March 2014

Horgan 4 March 18 My 1992 Profile of Cosmic Trickster and Inflation Pioneer Andrei Linde

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My 1992 Profile of Cosmic Trickster and Inflation Pioneer Andrei Linde



Yesterday, I expressed doubts about claims that observations of gravitational waves provide “proof” of inflation, a 24 year old theory of cosmic creation. Afterwards, I watched a moving video of dumbstruck inflation pioneer Andrei Lindeand his wife Renata Kallosh getting the news of the observations. The video brought back memories of a weekend I spent with these two wonderful physicists in 1992, when I was writing a profile of Linde for Discover, and of my first encounter with Linde two years earlier at a cosmology conference in Sweden (also attended by Alan Guth and Stephen Hawking). I’m re-publishing the profile here, because it provides a primer on inflation—and in particular Linde’s chaotic, eternally self-reproducing inflationary universe model—and because it shows why Linde remains one of my all-time favorite scientists. I hope he wins a Nobel Prize someday.
Andrei Linde is a pioneer of inflation, evidence of which has reportedly been found by a gravitational-wave observatory at the South Pole. Credit: Stanford University.
It is happy hour at the Nobel symposium on the origin of the universe, and Andrei Linde is up to his tricks again. Earlier in the week Linde had seriously provoked his fellow physicists with a lecture on what he calls the chaotic, eternally self-reproducing inflationary universe. Now, after imbibing a few of the local lingonberry cocktails, Linde pulls a box of matches out of his pocket and embarks on a round of mischief.
Linde persuades a snowy-haired Swedish scientist to serve as his subject. He presses a match to his colleague’s forehead and then, with his other hand, seems to pluck the match from the back of the man’s head. Tapping his subject’s temple, Linde drawls with a thick Russian accent, “Thees prove that in here ees wacuum.” When the subject fails to smile, Linde quickly adds, “Thees treek verks on my head also.”
Such antics are typical of Linde (pronounced LEEN-deh). The 44- year-old cosmologist loves to perform: in addition to being a sleight-of- hand artist, he’s an acrobat, a hypnotist, and a cartoonist who is not above doodling happy faces inside diagrams of multiuniverse complexes. And always he seems compelled to go a bit too far, with his cosmological theories as well as his magic tricks.
Linde is best known for his evangelical advocacy of a concept called inflation, which holds that in its very early infancy the universe underwent a brief but stupendous growth spurt before settling down to its current more leisurely rate of expansion. In part because of his contributions, inflation has become a widely accepted model in contemporary cosmology. But no one takes the concept as far as Linde does. He contends that the same basic mechanism spawned not only the observable universe–the galaxy-emblazoned realm we ponder through our telescopes–but also countless other universes being branched off from our own, universes that we’ll never see. He even speculates that our cosmos might have been deliberately created by beings in another one.
Sound crazy? Many of Linde’s notions do. But they’ve often inspired the kind of creative thinking physicists need to grapple with a mystery that goes back 10 to 20 billion years. “This guy has more ideas in ten minutes than most people have in a lifetime,” says a colleague at Fermilab. At that rate some of them are bound to be right.
As a rather newly appointed professor at Stanford, Linde has lived in northern California for 17 months, but his Old World pallor betrays a chronic unfamiliarity with sunlight. “California is maybe too relaxing,” Linde mutters during a stroll in his backyard, a different world from CERN, the European Laboratory for Particle Physics in Geneva, where he worked before moving to Stanford, and more different still from the Lebedev Physical Institute in Moscow, where he got his start.
Indeed, talking to Linde one-on-one, you soon realize he’s anything but laid back. For all his playfulness, he is deadly serious about his mission, which he says is nothing less than understanding what life is.
There may be some limit to rational knowledge, says Linde. One way to study the irrational is to “jump into it and just meditate. The other is to study the boundaries of the irrational with the tools of rationality.” Although Linde chose the latter route, he confesses that “sometimes I’m depressed when I think I will die like a physicist.”
But Linde’s fate was almost genetically predetermined. Both his parents are physicists, and he grew up in Moscow with his mother’s studies of cosmic rays and his father’s experiments in radio-wave emissions creating a kind of cosmic background for his eventual career. At Moscow University Linde devoted himself to theoretical physics, a discipline that he says offers at least a way “not to say total nonsense about the workings of the world.” Then in the 1970s, after taking a position at the Lebedev Physical Institute, he joined a small but growing band of theorists forging links between particle physics, which presents the smallest picture of matter and energy, and cosmology, which offers the biggest picture.
One of the important contributions of these theorists was the formulation of what came to be called grand unified theories. Experiments with particle accelerators had provided strong evidence that at very high energies all the forces of nature except gravity–that is, the strong nuclear force, which binds protons and neutrons together; the weak nuclear force, which rules certain types of nuclear decay; and electromagnetism– act as a single, unified force. At lower and lower energies the forces spontaneously disassociate, one by one.
Linde pointed out that this could help cosmologists understand what happened during the first fraction of a second after the Big Bang, when the cosmos was so hot that all the forces acted as one. As the universe cooled, the forces split off and particles began to behave differently. At that point, Linde said, the cosmos was essentially experiencing a phase transition, akin to how water goes through a transition when it changes from liquid to ice.
In the late 1970s, while exploring the implications of this view of the early universe, Linde and Soviet physicist Alexey Starobinsky came upon what Linde likes to call a “strange possibility.” Generally, of course, water turns from liquid to ice when the temperature falls below 32 degrees. There is, however, a process called supercooling, in which water can be made to stay liquid even when it’s several degrees colder. (The water must be thoroughly free of impurities that act as nucleation sites for crystals.)
Perhaps, Linde suggested, as the universe was going through a phase transition, in at least one region it became supercooled. In other words, in that one region of the infant universe nature’s forces remained unified even though it should have been too cold to allow such unity. In this metastable state, Linde conjectured, gravity might briefly have become a repulsive rather than an attractive force (this negative gravity is predicted by grand unified theories). And as a consequence, that part of the universe might have expanded with exponentially increasing speed. In fact, the expansion would have been far faster than the speed of light because space itself would be expanding, not any resident matter or energy.
Sooner or later, even supercooled water freezes. Similarly, the metastable region would eventually experience its own phase transition. Once the forces were no longer unified, the rapid expansion would stop. Linde imagined this happening first in bubbles of space that would abruptly appear in the metastable region like the ice crystals that appear in supercooled water. The bubbles would then quickly trigger the phase transition throughout the metastable region and slow its growth.
Unfortunately, this stunning version of genesis seemed to have fatal flaws. Linde realized that when these bubbles collided, the energy in their walls would create vast sheets of superdense matter, or black holes. He calculated that the odds were good that at least one of the collisions would have taken place within the boundaries of the observable universe. But astronomers don’t see such structures. Moreover, it didn’t seem possible for the bubbles to appear and expand fast enough to engulf the entire metastable region, which would have continued growing at unimaginable speed. Since the Soviet scientists couldn’t solve these problems–and since they saw no compelling reason for trying–they dropped the idea. “We thought it was garbage,” Linde recalls.
Then in 1980 a young American physicist named Alan Guth rediscovered the expansion mechanism. He called it inflation and showed how it could solve some puzzles posed by conventional Big Bang theory.
One concern is the smoothness of the Big Bang’s faint afterglow, the cosmic background radiation. This microwave radiation, which was discovered in 1965, is one of the strongest pieces of evidence for the Big Bang. In the 1970s, however, some cosmologists began to wonder why the radiation seemed to have precisely the same intensity in all directions. Guth’s solution was that the region from which the observable universe sprang was initially so tiny that it had time to reach thermal equilibrium- -which would smooth out any inhomogeneities–before it began inflating.
Inflation could also account for the flatness of space in our universe. According to Einstein’s theory of relativity, space is warped by matter and energy in a process we perceive as gravity. If the whole universe had enough mass and energy, it would completely warp in on itself; it would be closed. If, on the other hand, the universe had too little mass and energy, it would be open-ended. In either case, the universe would be a weird place–parallel lines would either converge or split apart. Neither seems to be the case, and in fact astrophysicists who have added up the mass and energy in the universe and factored in its size believe that the universe is almost perfectly flat. Some theorists find that a remarkable coincidence: How could the universe achieve that kind of perfection on its own?
Inflation, Guth said, provides an explanation. Astrophysicists have limited themselves to the observable universe, but the theory of inflation says it’s actually an unremarkable fraction of a much larger universe we can never hope to see. Space probably is curved, but the piece of it we know is too small to demonstrate that curvature. The apparent flatness astronomers observe isn’t a coincidence–it is simply a product of the limits of our vision.
Linde immediately recognized the importance of Guth’s paper. He also recognized that Guth hadn’t solved the colliding-bubble problem. Linde renewed his attacks on the problem with such intensity, he says, that he developed an ulcer. The solution finally came to him during a late-night telephone conversation with a colleague. To avoid waking his wife and sons, Linde had been talking in the bathroom. He became so excited by his idea that he woke up his wife anyway. “It seems that I know how the universe originated,” he told her. (Fortunately for Linde, he has an understanding wife–noted theoretical physicist Renata Kallosh.)
Linde’s answer made the observable universe seem even tinier than before. The entire universe as we know it, Linde decided, is nestled inside a single expanding bubble. Astronomers don’t see the black holes created by colliding bubbles because the walls of superdense matter are pushed beyond the observable borders of our little cosmos. Linde wrote up his work in 1981, and it was published early in 1982. Soon after, Paul Steinhardt, a physicist at the University of Pennsylvania, and Andreas Albrecht, one of Steinhardt’s graduate students, set forth essentially the same idea, which came to be called new inflation.
No sooner had new inflation caught on–and catch on it did, with amazing speed–than Linde discovered another flaw. When he tried to make his scenario jibe with the latest theories of particle physics, he found it wouldn’t work. In effect, a phase transition in the early universe would give rise to inflation only if some special conditions were met, involving a lot of extreme, unwarranted assumptions about how subatomic particles behave. Linde considered it highly unlikely that those conditions could be met by chance.
Then another “strange possibility” occurred to Linde. According to certain interpretations of quantum physics, classical notions of space and time completely break down on extremely small scales. In the universe’s infancy, Linde thought, when it was trillions of times smaller than the smallest subatomic particle, it might have existed as a chaotic foam of many possible configurations of space and time. Such a space-time foam, he asserted, would inevitably toss up islands of space and time packed with the energy required to trigger inflation. No special circumstances were necessary to create the islands–they would be born out of the turmoil of quantum variability.
Linde’s first chance to tell the world about his chaotic inflation hypothesis came in 1983, when he was invited to a conference on Shelter Island, New York. A number of the world’s top physicists and cosmologists, including Guth, Steinhardt, and British cosmologist Stephen Hawking, were attending. But Linde’s speech was met for the most part with blank stares. “Only Hawking understood,” Linde says.
Indeed, in 1988 Hawking praised chaotic inflation in his best- selling book A Brief History of Time. Chaotic inflation, Hawking wrote, has all the advantages of the earlier inflationary models, but it does not depend on a dubious phase transition.
In 1986, however, chaotic inflation was far from widely accepted and Linde, the idea machine, was out of ideas. The Soviet government had forbidden scientists from publishing abroad for a year. Also, Linde felt mired in a book he was writing about his ideas on inflation. He fell into a depression so deep that he could not get out of bed.
Then on extremely short notice the Soviet Academy of Sciences asked him–ordered him, actually–to deliver a speech at a meeting in Italy. The academy suggested- -demanded, actually–that he present some new theories, rather than hash over his old stuff. Linde realized that this was a rare chance to get something printed abroad. In half an hour of fevered thought, Linde conceived yet another strange possibility–the notion of the eternally self-reproducing universe.
Linde looked back at the moment when part of the space-time foam inflated. The energy that triggered the inflation, he realized, would slowly dwindle as it got diluted in the expanding space–but it would not dwindle everywhere. Thanks to quantum variations, the energy level would vary from point to point. In some regions of the universe the variation would lower the energy level, and soon inflation would peter out completely. Our visible universe is deep within one such region.
Meanwhile, though, other areas would experience a quantum power surge. Instead of winding down, they would suddenly inflate even more furiously, expanding into their own enormous universes. Of course, the energy level would fluctuate inside them too: some regions would soon slow down their expansion, while others would continue the inflationary cycle, breeding universes without end.
In a self-reproducing universe, there’s nothing that says that our visible universe isn’t just an offshoot from another, older universe. In fact, Linde isn’t even sure he needs to rely on a primordial space-time foam anymore–or, for that matter, a traditional Big Bang. The evolution of the universe as a whole has no end, Linde says, and it may have had no beginning.
Linde is not the first physicist to posit the existence of other universes. In the late 1950s, for example, Hugh Everett III of Princeton proposed that, even though subatomic particles seem to follow only a single path, they actually follow all the paths mathematically allowed them by quantum physics–in separate universes. But most theorists treat other universes as mathematical abstractions, and somewhat embarrassing ones at that.
Linde, on the other hand, delights in imagining what these alien worlds might be like. To do so, he borrows liberally from the language of genetics. Some of these offshoot universes retain the genes of their predecessors, he says, and evolve into universes with similar physical laws–and perhaps similar inhabitants. “The fact that somewhere else there is life like ours is to me almost certain,” says Linde. “But perhaps we can never know this.”
Other offshoot universes may undergo mutations and evolve with constants of nature, physical laws, and even dimensions unlike ours. Of course, we could never hope to enter these exotic realms, but Linde has speculated that if our universe becomes uninhabitable in the future, we might be able to travel to a nearby one with conditions like our own.
Yet even now our universe might at some level be influenced by others. This thought occurred to Linde in 1987, while he was in the United States presenting his ideas on a tour of universities. Between lectures Linde wrote a little paper explaining his new idea. The paper’s primary aim was to explore one of the deepest mysteries of modern physics: the vacuum-energy problem. Vacuum energy refers to the amount of energy that inhabits empty space.
You might suspect that empty space should be, well, empty. But according to quantum mechanics, the vacuum is never completely empty. It is pervaded by fluctuating fields of energy whose ultimate influence on space should be enormous. Yet, by what seems to be an incredible coincidence, the universe as a whole shows no trace of either positive energy, which would push space outward, or negative energy, which would make space contract. Why is the cosmic vacuum energy–as far as anyone can tell–precisely zero?
Linde came up with a typically far-out explanation. Some linkage between our universe and an unseen mirror universe, one with opposite energy values, cancels out any vacuum energy in either cosmos. It was “absolutely crazy,” Linde admits. Nevertheless he presented the hypothesis to various physicists he encountered on his tour, including Harvard’s Sidney Coleman. Most of them agreed with Linde: his idea was completely crazy. Linde went back to Moscow somewhat abashed.
Then a year later Coleman sent Linde a paper. Coleman had taken a different route than Linde did but arrived at the same conclusion: infinitesimal channels between our universe and others–what Coleman called wormholes–serve to cancel out the vacuum energy. Coleman’s paper, which cited Linde’s inspiring contribution, is still a hotly debated issue. The episode enhanced Linde’s already considerable reputation as a seminal thinker, and in 1988 CERN invited him and his wife to visit for a year. They left Moscow at the end of 1988 and have returned only for brief visits since then.
Even as Linde’s ideas have gained acceptance and respect, inflation itself is increasingly under attack. As Guth pointed out in 1980, one of the strengths of the theory is its ability to explain the exceptional smoothness of the cosmic background radiation. But recent surveys of galaxies show them huddled together in gigantic clusters surrounded by gigantic voids. If inflation made the universe so smooth early on, critics ask, how did it get to be so clumpy? In explaining why space appears to be flat, inflation also makes predictions about the density of the universe, but skeptics have pointed out that measurements of the total amount of matter in the universe have fallen short of those predictions.
Linde is fighting back, pointing out that inflation does explain how the universe can get clumpy. When an inflationary patch of space is expanding, little quantum fluctuations in its mass and energy get magnified as the space grows. True, the recent estimates of the clumpiness and mass density of the universe are beyond what inflation predicts. But, Linde says, the surveys are tentative, and chaotic inflation, with some modifications, can accommodate most of them. So far, “there are nothing but words,” Linde says of those who have tried to declare inflation dead.
Ever the showman, Linde is also trying to find ways to pitch his ideas. Taking advantage of his new milieu, for example, he recently persuaded a Silicon Valley company to lend him a $200,000 state-of-the-art computer-graphics system that can illustrate his chaotic, eternally self- reproducing inflation theory. The day after the company dropped off the computer at Linde’s house, his son Dmitri, a budding hacker, had it running a program illustrating chaotic inflation.
“He is the computer expert,” says Linde, proudly patting Dmitri’s shoulder. Dmitri generates an image of a Day-Glo mountain range. Through quantum fluctuations these peaks have risen up from a flat surface representing a patch of space. Each corresponds to an island of space-time where the conditions are right for inflation and where a new universe is being hatched. “People still think of only a single Big Bang,” Linde says. “The only way to show them is to make pictures.”
Fortunately for physics, defending inflation isn’t taking up all Linde’s time. Lately he’s been thinking about whether it is possible to manufacture another universe. Several physicists, including Guth, have toyed with this idea, calculating the materials and conditions required to trigger inflation in a laboratory. (You’d need only about 20 pounds of matter, Guth decided, but you’d have to squash it down to subatomic size. Linde sniffs at that weight. In his model of the universe, you need less than a millionth of an ounce.)
However, Linde much prefers to ask what he thinks is a more pertinent question: Why would someone want to create another universe? There would be no way for the creator to enter the other universe or even communicate with it; once it began inflating, it would almost instantaneously branch from its parent at faster-than-light speeds.
As usual, Linde is the first to arrive at an answer to his own question. Perhaps, he says, you could manipulate the seed of pre-inflation stuff in such a way that it evolved into a universe with particular dimensions, physical laws, and constants of nature. In that way the creator could impress a message onto the very structure of that universe.
In fact, Linde suggests, our own universe might have been created by beings in another universe, and physicists, in their fumbling attempts to unravel the physical structure of our world, may be on the path to decoding a message from our cosmic parents. After presenting this idea to me, Linde grants himself a tiny smile, as if he has just plucked a match from thin air. But the smile fades when I ask him to speculate on what the message might be. “It seems,” he replies wistfully, “that we are still not quite grown up enough to know.”
About the Author: Every week, hockey-playing science writer John Horgan takes a puckish, provocative look at breaking science. A teacher at Stevens Institute of Technology, Horgan is the author of four books, including The End of Science (Addison Wesley, 1996) and The End of War (McSweeney's, 2012). Follow on Twitter @Horganism.
The views expressed are those of the author and are not necessarily those of Scientific American.




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  1. 1. M Tucker3:26 pm 03/18/2014
    Can we please hear from the Albert Einstein Professor in Science and Director of the Princeton Center for Theoretical Science? Is that too hard to do? Can someone please contact Dr Paul J. Steinhardt at Princeton? I am waiting to hear from him before I celebrate.
    Link to this
  2. 2. Von Stupidtz8:23 am 03/20/2014
    “Yet, by what seems to be an incredible coincidence, the universe as a whole shows no trace of either positive energy, which would push space outward, or negative energy, which would make space contract. Why is the cosmic vacuum energy–as far as anyone can tell–precisely zero?”
    The universe is supposed to be continuously expanding. According to laws of thermal engineering, the entropy of the universe is always >1. From that we can draw the conclusion that universe is expanding continuously.
    I would welcome the views of prominent scientists on this matter. Am I not understanding what you are trying to convey here?
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