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. 12: Fall 1980 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Schizophrenic Neutrinos "As the concept of the neutrino has developed since the early 1930s, it has developed a split personality and put on weight. The neutrino is now thought to come in three varieties -- electron neutrino, muon neutrino and tau neutrino. And a number of experiments are showing hints that a neutrino has a small mass and that it can oscillate from one variety to another." These experiments are not yet conclusive; and if the neutrino mass is not zero, it hardly weighs more than the grin of a Cheshire cat. But taken together, the laboratory results confirm that neutrinos are perplexing particles. Are they different entities or a single species wearing different costumes? The implications of the recent measurements are far-reaching: Physicists believe that there are a billion neutrinos around for each nucleon (proton, neutron, etc.) so that if neutrinos possess just a hint of mass, they will dominate the mass of the universe; and Measurements of solar neutrinos fall short by a factor of three of what theory says the sun should spew out. This discrepancy could be explained if the solar neutrinos change from electron neutrinos to another form during their flight from the sun to earth, for the terrestrial neutrino detectors measure only electron neutrinos. (Anonymous; "Do Neutrinos Oscillate from One Variety to Another?" Physics Today, 33:17, July 1980.) From Science Frontiers #12, Fall 1980 . 1980- ...
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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 Solar Neutrino Update Our terrestrial neutrino detectors catch only about 1/3 as many solar neutrinos as stellar theory requires. We frequently refer to this anomaly because at risk here is our basic theory of how stars work. Is our knowledge of stellar furnaces fundamentally in error or are some of the solar neutrinos somehow removed from the stream of neutrinos bound for earth? Recent calculations by Hans Bethe have brought sighs of relief to all astrophysicists. Without going into all of the details, Bethe finds that the interactions of the electron-neutrinos emitted by solar thermonuclear reactions with atoms constituting the solar mass change a substantial fraction of them into muonneutrinos. Since our terrestrial neutrino detectors register only electron-neutrinos, we may really be seeing only a fraction of the total number of neutrinos being emitted by the sun. If Bethe's calculations turn out to be correct, he may have eliminated a Class1 anomaly. But at a price! It seems that his calculations also predict a mass of only 0.008 electron-volts for the muon-neutrino. This is much too small for neutrinos to account for the "missing mass" of the universe -- something cosmologists had devoutly hoped for. (Maddox, John; "Hans Bethe on Solar Neutrinos," Nature, 320:677, 1986.) From Science Frontiers #46, JUL-AUG 1986 . 1986-2000 William R. Corliss ...
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... Science Frontiers ONLINE No. 112: Jul-Aug 1997 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Signals From the Sun And, Eventually (? ), Other Entities It is rather amazing that we can detect neutrinos at all. Carrying no electric charge and possibly massless, most zip right through the entire earth as if it were not there. A very, very few, however, are captured in huge, fluidfilled tanks built by physicists. These trapped ghostly particles tell tales we do not yet fathom. We have mentioned the solar-neutrino problem before (SF#46/84, for example). It is one of science's more perplexing and enduring mysteries. Even the most modern, sophisticated neutrino detectors count only about one-third the number of neutrinos that the sun "should" be sending in our direction -- according to our best theories on the nuclear reactions simmering away in the solar core. To this classical neutrino problem has been added the discovery that the solar neutrino flux varies in ways difficult to explain. P. Sturrock and G. Walther, at Stanford University, scrutinized 20 years of data from a detector deep in the Homestead Mine in South Dakota and find that the neutrino flux seems to peak every 21.3 days, varying as much as 30% to 100%. It may be that the sun's fusion "engine," long thought to run steadily and smoothly, sputters in a cyclic fashion? If an automobile engine did this, we would take it ...
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... scientists worship the Residue Fallacy. Briefly, this "fallacy" states that a single type of discrepant observation should not be considered viable if it contradicts a large body of well-established, internally consistent observations. In geology, the Residue Fallacy is employed to dismiss the precursorless polonium halos found by R.V . Gentry, as well as some other radiometric discordances. These scientists seem to have forgotten about the anomalous advance of Mercury's perihelion and a few other obvious residues that ultimately stirred up revolutions in our thinking. Anyway, it is now satisfying to find the Editor of Nature, mainstream science's preeminent journal, acknowledging the value of anomalies. The stimulus in this case is the morethan-a -decade-old inability of astronomers and physicists to explain the missing solar neutrinos. Two new, more sophisticated, neutrino detectors have come on line, in Japan and the U.S ., and they have confirmed the results obtained in the huge vat of cleaning fluid in the Homestead Mine, in South Dakota. For some reason, everyone measures only about one-third the number of solar neutrinos expected. Either something is wrong with our model of the sun's (and other star's ) energy-producing mechanism or our knowledge of nuclear physics is faulty. Recently, the solarneutrino anomaly has been complicated by the fact that the Homestead Mine detector seems to "see" more neutrinos during violent solar flares, although the two newer detectors find no such connections. J. Maddox, Nature's Editor, closes his discussion of these problems ...
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... Science Frontiers ONLINE No. 137: SEP-OCT 2001 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Solar Model Confirmed, But Standard Model Crippled A persistent astronomical anomaly (well-covered in SF#112 and earlier) has apparently been satisfactorily disposed of. Even staunch anomalists will have to close the book on the solar-neutrinodeficit problem. No deficit really exists because the neutrinos emitted by the sun change while in flight from a type that is easy to detect to a type that is difficult to register experimentally. The total number of neutrinos reaching the earth is what it should be according to theory but we have not been able to detect them all. This neutrino schizophrenia has now been confirmed, and our theory about how the sun works is safe. But the erasure of the solar-neutrinodeficit problem tells the particle physicists that neutrinos do indeed change type, which implies that they possess mass. But anomalies are sometimes contagious. The Standard Model of particle physics, so successful in many respects, is now ailing. It asserts that neutrinos cannot change types and do not possess mass. (Seife, Charles; "Polymorphous Particles Solve Solar Mystery," Science, 292:2227, 2001. Weiss, P.; " Physics Bedrock Cracks, Sun Shines In," Science News, 159:388, 2001.) Comment. Without question, we have here an experimental triumph, but the undermining of that pillar of physics, the Standard Model, is a high price to pay. We have closed one book ...
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... we might as well, too. In fact, we really must, because 1987A is more than usually anomalous. The newspapers have oohed and aahed about this rare opportunity scientists have to study a nearby supernova. However, instead of getting closer to a final understanding of supernovas, 1987A seems to be confounding the theorists. No one can determine which star, if any, blew up. The 12th magnitude star Sanduleak -69 202 was first fingered, for it is located in the proper spot. But it is still there, apparently unchanged, as is a still fainter companion. The problem is that if 1987A really originated with an even fainter star, such a star would not have enough mass to go supernova. Part of 1987A's spectrum, its luminosity evolution, and precursory neutrino burst all indicate a Type-II supernova. Unfortunately, its ultraviolet spectrum is that of a Type-I supernova. Also anomalous are its high rate of evolution and low luminosity (only magnitude 4.5 instead of the predicted 2 +. Japanese apparatus located in a deep mine near Kamioka detected a burst of neutrinos about 22 hours before 1987A flared into the visible spectrum. This fits Type-II supernova theory, but the Mont Blanc equipment detected a neutrino burst just 4.6 hours before the flare-up. Which detector is correct; and why didn't both detectors register both bursts, if such there were? At the moment, some scientists think that the Mont Blanc event was spurious in view of previous unexplained bursts recorded there. (Waldrop, M. ...
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... . Astronomers are sure it exists because its presence, though unseen, explains two anomalies: The high circular velocity of the stars and gas in the outer reaches of galaxies. Circular velocities should decrease with distance from the galactic center, just as planet velocities do in the solar system. They don't , so some gravitational force from some unseen mass must counterbalancing centrifugal force (mark that this is presumptious! The "force" need not be gravity.) Observations suggesting that galaxies formed when the universe was less than a billion years old. The gravitational pull of the visible mass is inadequate to cause this clumping so quickly in the history of the universe. Many candidates have been proposed to play the dark-matter role. One of the more popular possibilities is that vast sea of neutrinos pervading the cosmos -- if they really do display just a hint of mass. Two other candidates now on the table are so bizarre that we marvel at the ingenuity of the theorists. One involves exceedingly large particles, the other unbelievably tiny clumps of particles. At the "giant" end of the size spectrum are galaxy-size particles weighing only 10-24 as much as an electron, which is itself by no means large. It would be hard to experimentally distinguish such ethereal particles from a hard vacuum. A Princeton team, led by W. Hu, asserts that such particles would coalesce into giant globs of "fuzzy", cold, dark matter. Now if only Hu et al would tell us how to detect them! (Pease, Roland: "Globs ...
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... Science Frontiers ONLINE No. 14: Winter 1981 Supplement Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects There's more than gold in the kolar mines When physicists installed nuclear-particle detectors deep in a mine in the Kolar Gold Fields in India, they hoped to measure particles created by highly penetrating neutrinos arriving from cosmic sources. They found instead immense showers of nuclear particles coming, not from above as expected, but from the sides and even below! These huge showers of 1,000 or more assorted particles are called "anomalous cascades." Neutrinos are the only known particles capable of penetrating the entire earth to create upwardly directed showers, but ordinary neutrinos do not seem to have enough energy to give birth to the anomalous cascades. (Anonymous; "Particle Shower Sprays Upward," Science News, 118:246, 1980.) Comment. Are there sources of unrecognized radiation deep within the earth? From Science Frontiers #14, Winter 1981 . 1981-2000 William R. Corliss ...
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... Science Frontiers ONLINE No. 41: Sep-Oct 1985 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Wimps in the sun?For over two decades now, physicists have been measuring the neutrino flux emitted by the sun -- and despite all attempts this flux is much too low. It just doesn't jibe with what theorists say should be happening in the thermonuclear powerhouse in the sun's interior. J. Faulkner and R. Gilliland have conceived a solution to this dilemma. They postulate a large population of WIMPS (Weakly Interactive Massive Particles) orbiting the sun's core, but still well beneath the sun's visible surface. The WIMPS help convey heat out of the core, thereby cooling it to temperatures significantly less than those predicted by the astrophysicists. A cooler core emits fewer neutrinos, bringing theory into line with reality. And just what are these WIMPS? One suggestion is that they are photinos, a particle suggested (but not proved) by recent experiments at CERN (SF#37) (Thomsen, D.E .; "Weak Sun Blamed on WIMPS," Science News, 128:23, 1985.) Comment. WIMPS represent just the kind of particle that Dewey Larson railed against in his book: The Universe of Motion. He maintains that astronomers have to engage in such ridiculous theoretical gymnastics and invention only because they have picked the wrong energy-generating mechanism for stars and refuse to give it up! Larson's theory, on the other hand, solves this ...
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... Science Frontiers ONLINE No. 136: JUL-AUG 2001 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Mirror Matter May Matter Mirror Matter, if it exists, would be difficult to detect because it does not emit radiation to betray its presence. It interacts with Normal Matter (us and our instruments) only through its gravitational pull. The Mirror-Matter concept has been around since the 1950s because physicists needed (and still need) "something" that balances the universe -- which if you haven't noticed is asymmetrical. To illustrate this cosmic "deformity," note that Normal-Matter neutrinos always spin in the same direction, when half should spin one way and half the other way if the universe is symmetrical. However, the existence of Mirror-Matter neutrinos spinning the other way would redress things, making the universe "perfect" -- at least as far as human aesthetics are concerned. (Other entities might yearn for asymmetry, who knows?) Anyway, Mirror Matter is defined as being palpable and could also be that "missing mass" or "dark matter" that astronomers need to explain why spinning galaxies do not fly apart. Mirror Matter could also account for some mysterious terrestrial phenomena such as that unaccountable lack of a significant crater in Siberia, where the 1908 Tunguska blast leveled a huge forest but hardly disturbed the ground. Recently, Mirror Matter has been invoked to explain the ups and downs of terrestrial biodiversity. R. Foot and Z. Silagadze propose that the 26-millionyear periodicity ...
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... Science Frontiers ONLINE No. 8: Fall 1979 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects Are the sun's fires going out?After reviewing solar maeasurements from the last 200 years, Jack Eddy, of the Smithsonian Observatory, has concluded that the sun's diameter shrinks by about 10 kilometers per year. This observation fits nicely with the ten-year-old enigma of missing solar neutrinos. A shrinking diameter implies a cooling sun, while the paucity of neutrinos suggests that the sun's nuclear fires are at a low ebb. Something similar may have happened in the 17th. Century when the so-called Little Ice Age prevailed. (Anonymous; "Scientists Shrink from Smaller Sun," New Scientist, 82:982, 1979.) From Science Frontiers #8 , Fall 1979 . 1979-2000 William R. Corliss ...
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... Science Frontiers ONLINE No. 137: SEP-OCT 2001 Issue Contents Other pages Home Page Science Frontiers Online All Issues This Issue Sourcebook Project Sourcebook Subjects The Missing Helium The situation now described is analogous to the saga of the "missing solar neutrinos" mentioned under ASTRONOMY. Here, it is our model of the earth's interior rather than that of the sun that is at risk. There is simply not enough helium escaping from earth's crust to account for the heat flowing outwards from our planet's core. You see, most of the earth's internal fires are fueled by the radioactive decay of uranium and thorium. The heat produced by these disintegrations eventually makes its way to the surface where we can measure it. but the helium (4He) created by the radioactive decay of the uranium and thorium is mostly missing. The discrepancy is large, and scien tists are confronted with the possibility that we are wrong about either the source of the earth's heat or the facts of nuclear physics. You can bet it will not be the latter. We are confident that helium atoms cannot change their type like those solar neutrinos! Neither can we blame chemical sequestration because helium is a noble gas. Perhaps the missing helium is physically trapped and stored somewhere in the earth's mantle. No one knows the answer; nor does any one pay much attention to this clearcut anomaly. (Chin, Gilbert, ed. ; "A Scarcity of Gas," Science, 292:2219, 2001.) From Science Frontiers #137, SEP ...
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... some of the "sunburn symptoms" in a recent article in Nature. Fade-outs of over-the-horizon radio communications Greater aerodynamic drag on satel lites and earlier reentry Glitches and outright damage in satellite electrical systems Anomalous induced voltages in elec trical power systems and long-line communications Blackouts of high-frequency polar communications oInduced errors in VLF (Very Low Frequency navigation systems Occasional radiation levels that are hazardous to humans in high-flying aircraft. (Schatten, Kenneth H.; "The Sun's Disturbing Behavior," Nature, 345:578, 1990.) Comment. It would be interesting to learn whether the "computer errors" we encounter so frequently follow the sunspot cycle. One phenomenon, at least, seems anticorrelated with solar activity: The number of solar neutrinos measured here on earth falls as sunspots multiply. This is particularly puzzling because neutrinos are presumably generated in the solar core, whereas sunspots are supposed to be manifestations of solar-surface activity. One phenomenon "should not" affect the other. (Waldrop, M. Mitchell; "Solar NeutrinoSunspot Connection Found," Science, 248:444, 1990.) From Science Frontiers #71, SEP-OCT 1990 . 1990-2000 William R. Corliss ...
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... Globular Clusters AOB9 Non-collapsing Globular Clusters AOB10 Sub-dwarfs Move Counter to Galactic Rotation AOB11 High Pulsar Velocities AOB12 Ubiquity of Binary and Multiple-Star Systems AOB13 Pulsar Formation Rate Exceeds Supernova Frequency AOB14 Dearth of Population-III Stars AOB15 Curious Distribution of Anomalous Cepheids AOB16 Family of Population-I Stars in Galactic Halo AOB17 The Existence of Globular Clusters AOB18 The Existence of Stars AOB19 Absence of Binaries in Globular Clusters AOB20 Alignment of Axes of Young Stars AOB21 Young Stars with Anomalous Velocities AOF ANOMALIES DETECTED THROUGH STELLAR RADIATION AOF1 Star Color Changes in Historical Times AOF2 Anomalous Variable Objects: A Few Extreme Cases AOF3 Unidentified Objects at the Core of Our Galaxy AOF4 Anomalies of Wolf-Rayet Stars AOF5 Nova and Supernova Anomalies AOF6 Cepheid Anomalies AOF7 Apparent Absence of Bright Carbon Stars AOF8 The "Missing" Solar Neutrinos and, by Extension, Stellar Neutrino Deficits AOF9 Pulsar Anomalies AOF10 Unidentified Infrared Objects in Our Galaxy AOF11 Optical Bursters and Flare Stars AOF12 Flicker Stars AOF13 Supermassive Stars AOF14 Discordant Binaries AOF15 Stars Emitting Excess Infrared Radiation AOF16 Spinning-Up Stars AOF17 Physical Barriers in the Evolutionary Path between Red Giants and White Dwarfs AOF18 Discrete Redshifts in Stellar Spectra AOF19 Gamma-Ray Sources Correlated with Solar Oscillations AOF20 Rapid Variation of Celestial Radio Sources AOF21 Gamma-Ray Objects AOF22 Galactic Sources of Unidentified Radiation AOF23 White-Dwarf Anomalies AOF24 Globular-Cluster "Age' Anomalies AOF25 Infrared Bursters AOF26 Stellar "Age" Anomalies AOF27 Higher Masses of Smaller White Dwarfs AOF28 Historical Disappearance of Stars AOF29 Gamma-Ray Bursters AOF30 X-Ray Bursters AOO EXTENDED GALACTIC OBJECTS AOO1 X-Ray Rings AOO2 Nebular Jets AOO3 The North ...
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... have maintained for over a century that the Second Law of Thermodynamics guarantees that our universe with run down one day and that life must cease. This cold reductionist view is seconded by recent evidence that protons, long con sidered immortal, may after all decay. The consequences of proton decay are even more dismal than the dire predictions of thermodynamics: "Perhaps the most disturbing piece of speculation to come out of theoretical physics recently is the prediction that the whole universe is in decay. Not only do living things die, species go extinct, and stars burn out, but the apparently immutable protons in the nucleus of every atom are slowly dissolving. Eventually -- in more than a quadrillion years -- nothing will be left of the universe but a dead mist of electrons, photons, and neutrinos." (Flam, Faye; "Could Protons Be Mortal after All?" Science, 257:1862, 1992.) The death of memory. With increasing entropy and decaying protons on their minds, it comes as no surprise that physicists likewise believe that when one dies, that's it . An afterlife is impossible. How do physicists conclude this? In a letter to the American Journal of Physics, J. Orear proffered an interesting sort of "proof": "One such proof: human memory is stored in the circuitry of the brain and after death this circuitry completely decomposes." But not all physicists were satisfied with this simplistic view. In a follow-on letter, J.B .T . McCaughan asked how Orear knew that memory is limited ...
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... Science Frontiers ONLINE No. 46: Jul-Aug 1986 Other pages Home Page Science Frontiers Online All Issues Last Issue Next Issue Sourcebook Project Sourcebook Subjects Contents Archaeology Tree-toting Extraordinaire Early Chinese Contacts with Australia? Astronomy Cosmic Currents Salt Structures on Venus? Halley's Comet Infected by Bacteria? Solar Neutrino Update Biology Spontaneous Human Combustion The Music of the Genes Are Fruit Bats Primates? Tigers in Western Australia? Geology Archaeopteryx and Forgery: Another Viewpoint More Paluxy Impressions Blackened, Broken Stones of the Middle East Which Came First? Geophysics The Moon and Avalanches Curious Luminous Display Over the Pacific Ocean Psychology When to Believe and When Not To Geomagnetic Stimulation of Poltergeist Activity ...
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... . They say the oldest stars are much older, perhaps 16 to 19 billion years old. Because the oldest stars can't be older than the universe in which they lie, this age paradox presents a thorny problem for astronomers." At least two solutions to the paradox are possible: (1 ) The cosmological distance scale used to determine the age of the universe is incorrect; and/or (2 ) Our theories about how stars work and evolve are in error. Something has to give. (Jayawardhana, Ray; "The Age Paradox," Astronomy, 21:39, June 1993.) Comment. Also pertinent here are H. Arp's collection of red-shift anomalies, which also call into question the cosmological distance scale; and those missing solar neutrinos, which cast doubt on our ideas about how stars work. H. Arp's redshift anomalies are cataloged in AQB and AWB in our catalog: Stars, Galaxies, Cosmos. To order, see: here . From Science Frontiers #89, SEP-OCT 1993 . 1993-2000 William R. Corliss ...
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... Sourcebook Subjects A Few Potential Ehes R.A . White, Founder/Director of the Exceptional Human Experience Network (EHEN), has spread out a fascinating smorgasbord of some 200 potential EHEs. We have room for only a quick snack: Accelerating thinking Aesthetic experience Conversion Ecstasy Enlightenment Gaia consciousness Guru/holy-person encounter Hyperacuity Inspiration Intuition Lucid dreaming Lucky hunches Meaningful coincidences Peace beyond understanding Peak performance Serendipity Soulmate experience Synchronicity World-Wide Web experience (White, Rhea A.; "List of Potential Exceptional Human Experiences," Exceptional Human Experience , 15:41, no. 1, June 1997.) Comment. Hard-core reductionists may complain that the listed experiences are "fuzzy." But are they fuzzier than those "ghost universes" or the newly predicted "sterile" neutrinos? From Science Frontiers #122, MAR-APR 1999 . 1999-2000 William R. Corliss ...
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... buried detectors have both picked up fluxes of muons coming from the direction of Cygnus X-3 Now Cygnus X-3 is already classed as a remarkable object because it spews out pulses of X-rays and gamma-rays. It turns out that the muon fluxes arrive in phase with the pulses of gamma-rays and X-rays, and are thus definitely linked to Cygnus X-3 . The problem here is that muons are electrically charged particles that would assuredly be thrown far off course by intergalactic magnetic fields if they originated at Cygnus X-3 . The muons, therefore, must be created by electrically neutral particles arriving at the earth's atmosphere from Cygnus X-3 . Neutrons can be ruled out because they would decay in transit. X-ray photons and neutrinos have also been ruled out. The only alternative left seems to be some unknown neutral particle generated at Cygnus X-3 . Cygnus X-3may be a huge particle accelerator which "may operate in a realm of physics inaccessible on Earth, and the high-energy muons may be the first messengers of that new physics." (Sutton, Christine; "Subatomic Particles from Space, "New Scientist, p. 18, May 23, 1985.) From Science Frontiers #40, JUL-AUG 1985 . 1985-2000 William R. Corliss ...
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... Science Frontiers ONLINE No. 12: Fall 1980 Other pages Home Page Science Frontiers Online All Issues Last Issue Next Issue Sourcebook Project Sourcebook Subjects Contents Astronomy Ephemeral Lines on Mars Little Big Bangs! Schizophrenic Neutrinos Biology Oh, Those Clever Plants Static on the Hare-lynx Cycle Signal The Currents of Life Geology The Earth's Ring The Rehabilitation of Cuvier The Field is Falling, the Field is Falling Geophysics Anomalous Sounds From An Australian Fireball Gravity Down, Mass Up Psychology Nses and reality (whatever that is!) ...
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... is enormous, and who know what else will eventuate? But what about science itself? First, cold fusion will doubtless generate a brand new crop of anomalies which we are only able to guess at now. Pertinent to our effort to catalog anomalies, it is possible that cold fusion may be occurring deep in the earth giving rise not only to heat but the upwelling flux of helium-3 , now called "primordial" perhaps in error. The icy planets Jupiter and Saturn generate heat, too, and may also be cold fusion reactors! Even the sun, which is undeniably hot (at least on the surface!), may be fusing light elements in ways we have yet to grasp in our stellar models. After all, no one has yet explained that deficit in solar neutrinos! There will be egg on a lot of faces if our notions of stellar energy generation are widly in error. We may be overreacting here; but we predict with confidence that the future will bring a good many scientific papers that begin with those all-toofamiliar words, "We now know that..." If physicists must now develop a new appreciation of electrochemistry, should not the biologists, too? At the risk of going too far, we recall that L.C . Kervran talks at length about his findings that the human body converts one element into another. See his book Biological Transmutations . Could he possibly have something? The scientific world utterly rejects Kervran - with some justification. This is being written in mid-April (1989). By the time ...
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... commended for his brilliantly conceived and researched volume", Science Books. 383 pages, hardcover, $18.95, 80 illustrations, 4 indexes 1985. 988 references, LC 85-61380, ISBN 915554-19-4 , 7x10 format. The Sun and Solar System Debris: A Catalog of Astronomical Anomalies Sorry: Out of Print. No longer available. Our sun, powerhouse of the Solar System and an enigma itself, is orbited by clouds of asteroids, comets, meteors and space dust These "minor objects" cause "major headaches" to astronomers searching for explanations. Typical subjects covered: Solar svstem resonances * Bode's Law and other regularities * Blackness of comet nuclei * Cometary activity far from solar influences * Unidentified objects crossing sun * The 'missing' solar neutrinos * Pendulum phenomena during solar eclipses * Observations of Planet X * Meteorite geographical anomalies * Meteorites from the moon * Long fireball processions * Very long duration meteorites * Zodiacal light brightness changes * [Picture caption: One of the many possible modes of solar surface oscillation] Comments from reviews: "It is an unusual book, nicely executed, and I recommend it highly", Icarus. 288 pages, hardcover, $17.95, 66 illustrations,4 indexes 1986. 874 references, LC 86-60231, ISBN 915554-20-8 , 7x10 format. Stars, Galaxies, Cosmos: A Catalog of Astronomical Anomalies Sorry: Out of Print. No longer available. Did the Big Bang really begin the existence of all we know? Do we honestly know how the stars ...
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