Science Frontiers
The Unusual & Unexplained

Strange Science * Bizarre Biophysics * Anomalous astronomy
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About Science Frontiers

Science Frontiers is the bimonthly newsletter providing digests of reports that describe scientific anomalies; that is, those observations and facts that challenge prevailing scientific paradigms. Over 2000 Science Frontiers digests have been published since 1976.

These 2,000+ digests represent only the tip of the proverbial iceberg. The Sourcebook Project, which publishes Science Frontiers, also publishes the Catalog of Anomalies, which delves far more deeply into anomalistics and now extends to sixteen volumes, and covers dozens of disciplines.

Over 14,000 volumes of science journals, including all issues of Nature and Science have been examined for reports on anomalies. In this context, the newsletter Science Frontiers is the appetizer and the Catalog of Anomalies is the main course.


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Compilations of back issues can be found in Science Frontiers: The Book, and original and more detailed reports in the The Sourcebook Project series of books.


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... Science Frontiers ONLINE No. 110: Mar-Apr 1997 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects The Crystalline Universe Cosmologists think in the large. Billions of stars are nothing to them. The megaparsec (3 ,528,000 light years) is but a hop, skip, and jump. A pressing question for these cosmologists searching for the really big picture is whether there is any order in the distribution of galaxies, galactic clusters, and superclusters. The scale of organization of the universe is of critical importance because it is a measure of state of the cosmos when hydrogen atoms first condensed from the seething sea of ions following the Big Bang. The prevailing expectation has been that galactic clusters and superclusters should be distributed at random; that is, no order prevails at that scale. Recent redshift measurements, however, hint more and more forcefully that the huge superclusters of galaxies are almost as neatly arranged as the atoms in a crystal. A recent paper in Nature by J. Einasto et al puts a number on the spacing of the superclusters: "Here, using a new compilation of available data on galaxy clusters, we present evidence for a quasi-regular three-dimensional network of rich superclusters and voids, with the regions of high density separated by "120 Mpc [megaparsecs]. If this reflects the distribution of all matter (luminous and dark), then there must exist some hitherto unknown process that produces regular structure on large scales." (Einasto, J., et al; "A 120 ...
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... Science Frontiers ONLINE No. 55: Jan-Feb 1988 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects An Astronomical Paradox Just a few years ago, most astronomers would have predicted that, as they examined larger and larger volumes of the universe, they would find more and more homogeneity. The Big Bang Theory predicts this; and it is seconded by the isotropy of the microwave background radiation. The mapping of the universe, however, has actually turned up all manner of galactic clusters, superclusters, and great skeins of superclusters strung across the heavens. Instead of a puree of matter, there is more and more structure the farther we peer into space. R.B . Tully, at the University of Ha waii, now charts a billion-light-year structure that he calls the Pisces-Cetus complex. This aggregation of galaxies includes us (the Milky Way), our Local Supercluster, and many neighboring superclusters. In actuality, the PiscesCetus complex is not a continuous structure. Rather, it is defined by a plane -- one containing a host of superclusters as well as voids. The problem posed for theorists is that they can suggest no way in which such a far flung manifestation of order could have evolved in the time available since the Big Bang. (Waldrop, M. Mitchell; "The Large-Scale Structure of the Universe Gets Larger-- Maybe," Science, 238:804, 1987.) From Science Frontiers #55, JAN-FEB 1988 . 1988-2000 William R ...
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... Science Frontiers ONLINE No. 47: Sep-Oct 1986 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Lumps, clumps, and jumps "Astronomers have already discovered lumps, motion and structure never suspected in a universe once considered smooth and expanding uniformly in all directions. Two researchers now say the universe is even lumpier, has faster relative motion and shows larger structures than previously believed." N. Bahcall and R. Soneira have been studying the structures and motions of superclusters of galaxies. Each supercluster consists of clusters of clusters of galaxies and contains upwards of hundreds of billions of stars. (Obvious-ly, these are not inconsequential entities!) By analyzing the redshifts of galaxies, Bahcall and Soneira have found that the universe is much more dynamic and inhomogeneous than expected. (1 ) The clusters of galaxies are larger and more extensive. Superclusters can be 500 million light years across -- about 1% of the known universe (2 ) Relative motions within the clusters are as high as 2,000 kilometers per second more than one can account for using gravitational attraction alone. (Kleist; T.; "Lumps, Clumps and Jumps in the Universe," Science News, 130:7 , 1986.) Comment. Before swallowing whole such grand sketches of the cosmos, one should always examine the assumptions. Here, redshifts are assumed to be measures of velocity, which if an expanding universe is assumed, can be converted into distances. Local Group of galaxies, including the Milky Way. and nearby superclusters ...
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... Science Frontiers ONLINE No. 67: Jan-Feb 1990 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Astronomers up against the "great wall"" For more than a decade now, astronomers have been haunted by a sense that the universe is controlled by forces they don't understand. And now comes a striking confirmation: 'The Great Wall.'" The Great Wall is the largest known structure in the universe at present, having superceded sundry superclusters and clusters of superclusters. The Wall is a "thin" (15 million-light-year) sheet of galaxies 500 million light years long by 200 wide; and it may extend even farther. It is emplaced some 200-300 million light years from earth. It helps outline contiguaous parts of vast "bubbles" of nearly empty space. Both the Wall and the adjacent voids are just too large for current theories to deal with. All popular theories have great difficulties in accounting for such large inhomogeneities. To illustrate an important observable -- the 2.7 K cosmic background radiation -- which is usually described as the afterglow of the Big Bang, ar gues for a very smooth, uniform distribution of galaxies. Great Walls are definitely anomalous. M.J . Geller, codiscoverer of the Great Wall with J.P . Huchra, remarked: "My view is that there is something fundamentally wrong in our approach to understanding such large-scale structure -- some key piece of the puzzle that we're missing." (Waldrop, ...
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... Bright Infrared Structures AVF3 Intrinsic Heat Radiation from Venus AVL POSSIBLE TEMPORARY SATELLITES OF VENUS AVL1 Bright Objects Resembling Venusian Satellites AVO ANOMALOUS TELESCOPIC OBSERVATIONS AVO1 Venusian Cusp Phenomena AVO2 Ring of Light around Venus AVO3 The Ashen-Light Phenomenon AVO4 The Phase Anomaly of Venus AVO5 Venus Seen Darker than the Sky AVO6 The Venusian Spoke System AVO7 Bright Spots AVO8 The Maedler Phenomenon: Brushes of Light AVO9 Flickering Light on Dark Limb AVO10 Terminator Irregularities AVW VENUSIAN ATMOSPHERIC ANOMALIES AVW1 Superrotation of the Venusian Atmosphere AVW2 Anomalous Distribution and Scarcity of Water Vapor AVW3 Periodic Variation of CO2 Absorption Lines AVW4 Noble-Gas Anomalies AVX TRANSIT ANOMALIES AVX1 Ring of Light around Venus during Contact Phase AVZ MAGNETIC FIELD OF VENUS AVZ1 The Negligible Venusian Magnetic Field AW GALAXIES AWB DISTRIBUTION AND DYNAMICS OF GALAXIES AWB1 The Existence of Galactic Clusters AWB2 The Existence of Superclusters AWB3 The Existence of Large Voids in the Universe AWB4 The Swiss-Cheese Structure of the Universe AWB5 The Anomalous Rotation of Matter in Galaxies AWB6 Large-Scale Anisotropy in Galaxy Distribution AWB7 Seemingly-Related Galaxies with Discordant Redshifts AWB8 Large-Scale Streaming of Superclusters AWB9 The Origin of Galactic Rotation AWB10 Lines of Galaxies Associated With Elliptical Radio-Bright Galaxies AWB11 Spirals and Ellipticals Have Markedly Different Population Densities AWB12 Smooth Background Population of Lone Galaxies AWB13 Apparent Rapid Dispersal of Galactic Clusters AWB14 Structures Larger Than Superclusters AWB15 Anomalous Gas Motion in Elliptical Galaxies AWB16 Preferred Orientation of Galaxies in Clusters AWB17 The Existence of Galaxies AWF ANOMALIES DETECTED THROUGH GALACTIC RADIATION AWF1 The Slight Blueness of Distant Galaxies AWF2 The Seyfert Energy Problem AWF3 Superluminous Infrared Galaxies AWF4 Luminosity Changes in Ordinary Galaxies AWF5 Variable X-Ray-Bright Galaxies ...
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... Science Frontiers ONLINE No. 133: JAN-FEB 2001 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects The Fingers of God We present the following quotation without comment because "tfv" (the author) has obliged in his review of a recent article in Science: Large-scale structure of the universe. A vast redshift survey of over 100,000 galaxies shows hundreds of superclusters and "Great Wall"-like structures, but also "the ends of the biggest structures in the universe". Vast clumps and dark voids are seen. [tvf: No comment is made [in Science] on the clumps and voids both being elongated in directions along our line of sight. This phenomenon is called "the fingers of God" because galaxies seem to line up in filaments pointing at us. The simplest non-theological way out of this dilemma is to jettison redshift as a reliable distance indicator.] (Van Flandern, Tom; Meta Research Bulletin, 9:48, 2000. Citing: Science, 288:2121, 2000.) From Science Frontiers #133, JAN-FEB 2001 . 2001 William R. Corliss Other Sites of Interest SIS . Catastrophism, archaeoastronomy, ancient history, mythology and astronomy. Lobster . The journal of intelligence and political conspiracy (CIA, FBI, JFK, MI5, NSA, etc) Homeworking.com . Free resource for people thinking about working at home. ABC dating and personals . For people looking for relationships. Place your ad free. ...
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... 5 ) quarks and leptons. But now physicists are beginning to see regularities in the lowest accepted layer, quarks and leptons, that betoken a sixth layer of compositeness or subdivisibility. In other words, quarks and leptons are not really fundamental and instead are composed of something else, which will undoubtedly eventually receive fanciful names. In this article, O.W . Greenberg delves into this sixth stratum and the "regularities" it engenders. The article is really too technical for Science Frontiers, but we thought our readers might like to be warned that our concepts of matter are based on infinite quicksand. (Greenberg, O.W .; "A New Level of Structure," Physics Today, 38:22, September 1985.) Comment. With ever-more-gigantic galactic superclusters being charted and the possibility of Big Bangs occurring "somewhere else," matter may also be infinitely aggregative, too. From Science Frontiers #43, JAN-FEB 1986 . 1986-2000 William R. Corliss ...
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... The nice circularity of the arcs is perplexing; and it is stated that nothing like them has been reported before. The arcs might be incandescent gas, but many astronomers opt instead for swaths of bright young stars. Spectroscopic tests will decide this point. It has been difficult to conceive of an origin for the arcs. Are they blast waves or the results of tidal action between galaxies? No one knows, for all suggestions seem flawed. Something out there not only manipulates stupendous amounts of mass and energy but also does it with a draftsman's compass. (Anderson, Ian; "Astronomers Spot the Biggest Objects in the Universe," New Scientist, p. 23, January 15, 1987.) Comment. In the interest of accuracy, it should be noted that some superclusters of galaxies are larger than the arcs. Also, some similar phenomena are described in our Catalog volume Stars, Galaxies, Cosmos, viz., the stacked, interleaved arcs of stars around elliptical galaxies (AWO5) and ring galaxies without significant nuclei (AWO6). To order the catalog volume just mentioned, visit: here . A luminous arc located near the galaxy cluster 2242-02. (NOAO). From Science Frontiers #50, MAR-APR 1987 . 1987-2000 William R. Corliss ...
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... Science Frontiers ONLINE No. 46: Jul-Aug 1986 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Cosmic Currents A survey of 390 elliptical galaxies have identified an unexpected streaming effect superimposed on the (postulated) general outward expansion of the universe. A team of seven astronomers first measured the velocities of the elliptical galaxies relative to the earth. Next they subtracted out the velocities of universal expansion and, lastly, the velocity of the earth relative to the 3 K cosmic background radiation. These subtractions enable us to determine how the 390 elliptical galaxies move relative to the cosmic background radiation -- which is about the best fixed reference frame we can come up with. For roughly 50 million parsecs in all directions from earth, the clusters and superclusters of galaxies are streaming through the cosmos in a group. What's more, they lie in and move parallel to a fairly well-defined plane. Just what this coordinated motion means in terms of the origin and evolution of the universe is anyone's guess. There doesn't seem to be anything in the Big Bang theory that would explain these cosmic currents. Something set all these galaxies in motion -- but what? (Waldrop, M. Mitchell; "The Currents of Space," Science, 232:26, 1986.) A giant elliptical galaxy containing many billions of stars. Hundreds of these immense assemblages are moving collectively though the cosmos. From Science Frontiers #46, JUL-AUG 1986 . 1986-2000 William R. Corliss ...
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... Science Frontiers ONLINE No. 36: Nov-Dec 1984 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Order from disorder?The apparent creation of order in a universe that is supposed to be running down is the subject of a thoughtful report by Wallace and Karen Tucker. They give additional examples of order arising from disorder in astronomy (spiral galaxies, superclusters), from chemistry (Belousav-Zhabotinsky reactions), and biology (embryonic development). Again and again, they ask why order persists on increasing when the Second Law of Thermodynamics seems to demand more disorder. Throughout the article, the Tuckers employ the card-shuffling analogy. If nature is shuffling the cards of the universe, why are so many royal flushes being dealt? They introduce the works of Ilya Prigogine and others which focus on chemical situations (the Belousov-Zhabotinsky reactions), where reaction by-products actually make the reaction more likely and in which large, stable spiral and ring-shaped structures appear spontaneously. At the macroscopic level, shock waves from supernovas can (at least in computer models) stimulate the formation of spiral arms in galaxies. The article concludes with a quote from astronomer David Layzer: "The universe is unfolding in time but not unraveling; on the contrary, it is becoming constantly more complex and richer in formation." (Tucker, Wallace, and Tucker, Karen; "Against All Odds: Matter and Evolution in the Universe," Astronomy, September 1984.) Comment. Now Layzer's statement seems a ...
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... -so-subtle pressures to conform. The first paper in Hypothesis. Arp et al summarize in two sentences: "We discuss evidence to show that the generally accepted view of the Big Bang model for the origin of the Universe is unsatisfactory. We suggest an alternative model that satisfies the constraints better." Most of the paper sets out observational evidence for the authors' main themes, as stated parenthetically above following their names. Space is also devoted to the contention that the vaunted "proofs" of the Big Bang are really not. Since these themes have appeared repeatedly in Science Frontiers, we will bypass details here. The paper concludes with suggestions for an alternative to the Big Bang, which is based upon multiple creation events -- thousands of them, each on the scale of superclusters of galaxies! (Arp, H.C ., et al; "The Extragalactic Universe: an Alternative View," Nature, 346:807, 1990.) Comment. There are two ironies: Irony #1 . J. Maddox, Nature's editor, while trying to encourage alternatives to the Big Bang on one hand, has been most fierce in suppressing Benveniste's infinite-dilution research and cold fusion, although perhaps with some justification. Irony #2 . In their conclution, Arp et al remark: "Geology progressed favour-ably from the time Hutton's principle of uniformity was adopted, according to which everything in geology is to be explained by observable ongoing processes." They then suggext that cosmology and cosmogony might well adopt such an outlook ...
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... completely ignoring the genetic code, continental drift, nuclear fission, and so on and so on. More sober scientists rejected such extravagant claims. They pointed out that independent confirmation of the fluctuations was yet to come and that, after all, the fluctuations were very small (only some 30 millionths of a K). And which of the many variations of Big Bang was going to be enthroned? Even Nature advised extreme caution, quoting H. Bondi in this regard: ". .. the data in cosmology are so likely to be wrong that I propose to ignore them." (Anonymous; "Big Bang Brouhaha," Nature, 356:731, 1992.) Comment. It is ironical that before astronomers found large-scale inhomogeneities in the cosmos (galactic clusters and superclusters, the Great Wall, etc.), the Big Bangers claimed that the very smoothness of the microwave background proved the reality of the Big Bang. The Big Bang, it seems, is one of those "politically correct" paradigms, which one criticizes at his peril. (Beichman, Arnold; "The Big Bang Censorship," Insight , p. 22, April 13, 1992. Cr. B. Horstmann.) Reference. To read more about the trials of the Big Bang hypothesis, see our catalog: Stars, Galaxies, Cosmos. To order, visit: here . From Science Frontiers #82, JUL-AUG 1992 . 1992-2000 William R. Corliss ...
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