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Galactic Cosmic Ray Volleys: A Coming Global Disaster

Galactic core outbursts are the most energetic phenomenon taking place
in the universe. The active, quasar-like core of spiral galaxy PG
0052+251 (Figure 1), for example, is seen to radiate 7 times as much
energy as comes from all of the galaxy's stars. Most of this is emitted
in the form of high energy cosmic ray electrons accompanied by
electromagnetic radiation ranging from radio wave frequencies on up to X
ray and gamma ray frequencies.

A study of astronomical and geological data reveals that cosmic ray
electrons and electromagnetic radiation from a similar outburst of our
own Galactic core, impacted our Solar System near the end of the
so-called "ice age." This cosmic ray event spanned a period of several
thousand years and climaxed around 14,200 years ago. Although far less
intense than the PG 0052+251 quasar outburst, it was, nevertheless, able
to substantially affect the Earth's climate and trigger the worst animal
extinction episode of the Tertiary period.

The climatic effects were not due to the cosmic rays themselves, but to
the cosmic dust that these cosmic rays transported into the Solar
System. Observations have shown that the Solar System is presently
immersed in a dense cloud of cosmic dust, material that is normally kept
at bay by the outward pressure of the solar wind.

But, with the arrival of this Galactic cosmic ray volley, the solar wind
was overpowered and large quantities of this material were pushed inward.

The Sun was enveloped in a cocoon of dust that caused its spectrum to
shift toward the infrared. In addition, the dust grains filling the
Solar System scattered radiation back to the Earth, producing an
"interplanetary hothouse effect" that substantially increased the influx
of solar radiation to the Earth. The Sun also became highly active as
dust and gas falling onto its surface induced extreme flaring activity.

Together with the radiation influx from the Sun's dust cocoon, this
caused the Sun's corona and photosphere to inflate, much as is observed
today in dust-choked stars called "T Tauri stars."

These various solar effects caused atmospheric warming and inversion
conditions that facilitated glacial growth. The sudden onset of warm
interstadials, coupled with rapid glacial melting, continental flooding,
and animal extinction episodes can be attributed to occasions when the
solar radiation influx to the Earth had become particularly high.

Details of this scenario are described in Paul LaViolette's book Earth
Under Fire,(1) in his Ph.D. dissertation,(2) as well as in a series of
journal articles he has published.(3&endash;8) Dr. LaViolette, who is
currently president and chief researcher of the Starburst Foundation,
was the first to demonstrate that cosmic rays from a galactic core
explosion penetrate far outside a galaxy's nucleus to bombard solar
systems like our own residing in the spiral arm disk.

He coined the word "galactic superwave" to refer to such a cosmic
barrage. He has shown that Galactic superwaves recur at long intervals
and arrive at Earth's doorstep without warning because they travel at
near light speed.

Galactic superwaves are a recent discovery. During the early 60's
astronomers began to realize that the massive object that forms the core
of our Galaxy (the Milky Way), periodically becomes active.(9) The cores
of all spiral galaxies cycle through a similar phase. During its active
period, our galactic core spews out a fierce quasar-like barrages of
cosmic rays, with a total energy output equal to hundreds of thousands
of supernova explosions.(10, 11) In some galaxies these active emissions
have been observed to equal the energy from billions of supernova
explosions.

Until recently, astronomers believed these eruptions were very
infrequent, occurring every 10 to 100 million years.(10) They also
believed the interstellar magnetic fields, in the Galactic nucleus,
would trap the emitted particles in spiral orbits causing them to reach
the Earth very slowly.(12) For these reasons, many did not believe that
Galactic core explosions posed any immediate threat to the Earth.

However, in 1983 Paul LaViolette presented evidence to the scientific
community indicating that:(2 - 4)

1. Galactic core explosions actually occur about every13,000 - 26,000
years for major outbursts and more frequently for lesser events.

2. The emitted cosmic rays escape from the core virtually unimpeded. As
they travel radially outward through the Galaxy, they form a spherical
shell that advances at a velocity approaching the speed of light.

Astronomical discoveries subsequently confirmed aspects of Dr.
LaViolette's hypothesis. In 1985, astronomers discovered that Cygnus
X-3, an energetic celestial source of cosmic rays, which is about the
same distance from Earth as the Galactic Center (25,000 light years), is
showering Earth with particles, traveling at close to the speed of
light, moving in essentially straight paths.(13)

Later, scientists found the Earth is impacted, at sporadic intervals,
with cosmic rays emitted from the X-ray pulsar Hercules X-1 (about
12,000 light years distant).(14, 15) The intervening interstellar medium
has so little effect on these particles, that their pulsation period of
1.2357 seconds, is constant to within 300 microseconds.

These findings are reason to be gravely concerned about the effects of a
Galactic core explosion because they imply that the cosmic rays
generated can impact our planet, virtually without warning, preceded
only by the wave-flash from the initial explosion.(1, 2, 6) Astronomical
observations show the last major Galactic core explosion occurred as
recently as 10,000 to 15,000 years ago.(16, 17) Data obtained from polar
ice core samples show evidence of this cosmic ray event as well as other
cosmic ray intensity peaks from earlier times (Figure 2).(1, 18)

Figure 2. (not available for this report)

Demonstration that cosmic ray intensity has varied considerably during
the past hundred twenty thousand years. Lower profile: Cosmic ray
intensity at the Earth's surface calculated from variations in the
concentration of beryllium-10 in the ice record adjusted for changes in
ice accumulation rate. Upper profile: Global temperature. Climatic zones
include: the present interglacial (1), last ice age (2, 3, & 4),
previous semi-glaciated period (5a-d), last interglacial (5e), and
previous glaciation (6).

Also Dr. LaViolette's prediction that there is a residual flow of
interstellar dust currently entering the Solar System from the Galactic
center direction was later verified by data collected from the Ulysses
spacecraft and by AMOR radar measurements made in New Zealand(8). A
complete listing of related predictions and their verification is given
in Earth Under Fire, pages 125 &endash; 127.

Today, tomorrow, next week, next year. . . sometime in the coming
decades. . . our planet could once again be hit by an intense volley of
Galactic cosmic rays. It will come cloaked and hidden from us, until the
very moment it strikes. We live on the edge of the Galaxy's volcano.
Knowing neither the time, the magnitude, nor the severity of the next
eruption or its impact on our environment, we stand unprepared to deal
with this event, much less anticipate its arrival.

Galactic Superwaves: Their Effects on Life and Society

When cosmic rays from Galactic superwaves impact the Earth's atmosphere,
they produce "electron cascades." Each primary cosmic ray generates
millions of secondary high energy electrons.

Many of these particles scatter upwards and become trapped by the
Earth's magnetic field to form radiation belts similar to those created
by high altitude nuclear explosions.

In just one day, a major Galactic superwave event would inject into the
geomagnetic field a particle energy equivalent to 1000 one-megaton
hydrogen bomb explosions (1025 ergs).

At this rate, the energy delivered to the belts after one year would
exceed 30,000 times the energy received from the most powerful solar
cosmic ray storms observed in modern times.

Such energized radiation belts could cause a global communications
blackout by creating radio static and by permanently damaging critical
electronic components of communication satellites. Air travel during
such conditions would be extremely hazardous.

The resulting atmospheric ionization would destroy the ozone layer, and
increase skin cancer rates, due to high levels of UV reaching the
Earth's surface; the cosmic ray particles penetrating to ground level
would significantly increase cell mutation rates.

Galactic superwaves may also produce an intense electromagnetic pulse
(EMP) whenever a cosmic ray front happens to strike the Earth's
atmosphere. Galactic superwaves such as those that arrived during the
last ice age could have generated pulses delivering tens of thousands of
volts per meter in times as short as a billionth of a second, comparable
to the early-time EMP signal from a high-altitude nuclear explosion (see
Figure 3).

In addition, there is the danger that a superwave could transport
outlying cosmic dust into the Solar System which could seriously affect
the Earth's climate possibly triggering a new ice age. Although there is
a small probability that the next superwave will be as catastrophic as
the one at the end of the last ice age, even the less intense, more
frequent events would be quite hazardous for the global economy.

[Image]

Figure 3. Intensity vs. time plot for EMP from a high-altitude nuclear
explosion (solid line) compared to that from a hypothetical superwave
(dashed line). The numbers designate early-time, intermediate-time, and
late-time EMP phases (ns = nanoseconds, *s = microseconds).

The Frequency and Hazards of Minor Superwave Events

Galactic Center activity occurs frequently between major superwave
events. Astronomical observation indicates that during the last 6,000
years, the Galactic center has expelled 14 clouds of ionized gas.(19)
See Figure 4 for dates.

These outbursts may have produced minor superwave emissions with EMP
effects comparable to those of major superwaves. About 80% of these
bursts took place within 500 hundred years of one another (Figure 5).
With the most recent outburst occurring 700 years ago, there is a high
probability of another one occurring in the near future.

[Image]

Figure 4. History of minor Galactic Center explosion activity during the
past 6000 years; approximate dates when radiation pulses arrived from
the Galactic Center. (These age estimates taken from Lacy et al. have
been decreased by 70% to be consistent with the value of 7 kiloparsecs
for the estimated distance to the center of the Galaxy.)

[Image]

Figure 5. Amount of time between successive gas expulsions from the
Galactic center, plotted as a frequency histogram.

The four-second extragalactic gamma ray burst that arrived in 1983, did
have a measurable effect on radio transmissions used for global
navigation and communication.(20) By comparison, the "minor" superwave
events discussed above might have total energies hundreds of millions of
times greater than this.

At present little research is being done on this important astronomical
phenomenon. Nor are we prepared should a Galactic superwave suddenly
arrive. International channels of communication are not in place to deal
with the disasters that a superwave could bring upon us.

Steps that Should be Taken

Currently, radio astronomers are monitoring the cosmic ray/synchrotron
radiation activity of the Galactic core on a daily basis. They report
their findings regularly in IAU (International Astronomical Union)
circulars. However, an early warning system needs to be set up so that,
in the event that signs of a significant core outburst and superwave
activity are detected, the proper organizations around the world are
notified and the proper precautions are taken. In this way, the impact
of such an event could be drastically reduced.

In regard to the superwave EMP problem, there is a need to develop an
awareness about this phenomenon so that if it does occur, it does not
inadvertently trigger a nuclear missile launching. Also there is a need
to develop emergency plans to implement measures that will minimize its
impact on power and communications networks.

There needs to be an increased awareness of the phenomenon and its
potential threat to the Earth so that ways might be found of minimizing
the effects of a superwave should one arrive.

More scientific papers need to be presented on research on this subject
and media coverage of the subject is needed. Astronomical and geological
research needs to be conducted to learn more about this phenomenon.

For example, a more detailed analysis needs to be made of the high
concentrations of beryllium-10 and cosmic dust present in the ice age
portion of the Earth's polar ice record, remnants of the last major
superwave event.

Data on interstellar dust composition that will be gathered with the
Cassini spacecraft will also be particularly useful.

Currently, the Starburst Foundation is one of the few organizations
researching this important astronomical phenomenon. The Starburst
Foundation is a scientific research institute dedicated to discovering
how Galactic superwaves have affected our planet in the past, to
implementing an international early-warning system for future events,
and to investigating ways of lessening the adverse effects of superwaves
on our planet.

The Starburst Foundation is a 501(c)(3) nonprofit U.S. corporation that
is supported by charitable contributions. Those interested in sending
donations may make out a check to the Starburst Foundation and send it to:

The Starburst Foundation

1176 Hedgewood Lane

Schenectady, NY 12309

email: Starcode at aol.com

References

1) LaViolette, P. A. Earth Under Fire. Schenectady: Starlane
Publications, 1997.

2) LaViolette, P. A. Galactic Explosions, Cosmic Dust Invasions, and
Climatic Change. Ph.D. dissertation, Portland State University,
Portland, Oregon, August 1983.

3) LaViolette, P. A. "The terminal Pleistocene cosmic event: Evidence
for recent incursion of nebular material into the Solar System." Eos 64
(1983): 286. American Geophysical Union paper, Baltimore, Maryland.

4) LaViolette, P. A. "Elevated concentrations of cosmic dust in
Wisconsin stage polar ice." Meteoritics 18 (1983): 336. Meteoritical
Society paper, Mainz, Germany.

5) LaViolette, P. A. "Evidence of high cosmic dust concentrations in
Late Pleistocene polar ice (20,000 -14,000 Years BP)." Meteoritics 20
(1985): 545.

6) LaViolette, P. A. "Cosmic ray volleys from the Galactic Center and
their recent impact on the Earth environment." Earth, Moon, and Planets
37 (1987): 241.

7) LaViolette, P. A. "Galactic core explosions and the evolution of
life." Anthropos 12, (1990): 239 &endash; 255.

8) LaViolette, P. A. "Anticipation of the Ulysses interstellar dust
findings." Eos 74(44) (1993): 510 &endash; 511.

9) Oort, J. H. "The Galactic Center." Annual Reviews of Astronomy &
Astrophysics 15 (1977): 295.

10) Burbridge, G. R. et al. "Evidence for the occurrence of violent
events in the nuclei of galaxies." Reviews of Modern Physics 35 (1963): 947.

11) Burbidge, G. R. et al. "Physics of compact nonthermal sources III.
Energetic considerations." Astrophysical Journal 193 (1974): 43.

12) Ginzburg, V. L., and Syrovatskii, S. I. The Origin of Cosmic Rays.
New York: Pergamon Press, 1964, p. 207.

13) Marshak, et al. "Evidence for muon production by particles from
Cygnus X-3," Physical Review Letters 54 (1985): 2079.

14) Dingus, B. L. et al. "High-energy pulsed emission from Hercules X-1
with anomalous air-shower muon production." Physical Review Letters 61
(1988): 1906.

15) Schwarzschild, B. "Are the ultra-energetic cosmic gammas really
photons? Physics Today (ll) (1988): 17.

16) Brown, R. L., and Johnston, K. J. "The gas density and distribution
within 2 parsecs of the Galactic Center," Astrophysical Journal 268
(1983): L85.

17) Lo, K. Y., and Claussen, M. J. "High-resolution observations of
ionized gas in central 3 paresecs of the Galaxy: possible evidence for
infall." Nature 306 (1983): 647.

18) Raisbeck, G. M., et al. "Evidence for two intervals of enhanced 10Be
deposition in Antarctic ice during the Last Glacial Period." Nature 326
(1987): 273.

19) Lacy, J. H., Townes, C. H., Geballe, T. R., and Hollenbach, D. J.
"Observations of the motion and distribution of the ionized gas in the
central parsec of the Galaxy. II," Astrophysical Journal 241 (1980): 132.

20) Fishman, G. J. and Inan, U. S. "Observation of an ionospheric
disturbance caused by a gamma-ray burst." Nature 331 (1988):418.

Somebody long ago went to great lengths to warn us about the Galactic
superwave phenomenon by creating a message that would endure through
time. This amazing ancient message, which is preserved in the zodiac
constellations and their astrological lore, is deciphered in the books
Earth Under Fire and Beyond the Big Bang.

Does the Galactic Center Affect ESP Ability?

Researchers at the Cognitive Sciences Laboratory in Palo Alto have found
that a person's extrasensory perception ability is strongly influenced
by his or her orientation relative to the star background field.

In particular, in a paper published in The Journal of Scientific
Exploration, Dr. James Spottiswoode reports that a clairvoyant's
effectiveness in conducting remote viewing was completely null when the
Galactic center was at the zenith, a period corresponding to between
17.5 hours and 20 hours local sidereal time (LST). The Galactic center
is at the zenith at 17.75 hours LST.

The diagram shown below is reproduced from figure 3 of their paper. Also
they found that a clairvoyant's effectiveness, which they plot
vertically as a quantity they call "effect size" reached a maximum
around 13.5 hours LST in the form of a broad peak extending from 12
hours to 14.5 hours LST during which effectiveness increased about 400
percent.

This corresponds to a time when the Galaxy's north pole is at the
zenith, galactic north being situated in the Coma Bernices constellation
about 30º north of Virgo. This study analyzed remote viewing data
gathered over a period of 20 years.

In addition, in another paper, Dr. James Spottiswoode and Dr. Edwin May
found that during the Coma Bernices/Virgo maximum ESP effectiveness was
negatively correlated with solar wind speed, an indicator of solar
activity. Thus when solar wind speed is at a maximum, indicative of
increased solar activity, ESP clairvoyant effectiveness is reduced.

As reported in Earth Under Fire, the human race nearly met with
extinction at the end of the last ice age during a protracted
terrestrial cataclysm that was triggered by the arrival of cosmic rays
from an explosion of our Galaxy's core.

Moreover by inducing cosmic dust to invade our solar system, this event
caused our Sun's flaring activity (and solar wind velocity) to become
extremely elevated to the point of initiating a global conflagration.
Could the present inhibition of ESP ability during times of Galactic
center ascension or times of increased solar wind velocity (increased
solar activity) be due to the presence of an unconscious racial memory
of this past tragedy?