Is a Solar-Flare ‘Killshot’ Imminent ?
August 5, 2013 in Preparedness
Is a Solar-Flare ‘Killshot’ Imminent ?
Electromagnetic pulses, also known as EMPs, are massive surges of energy that can come from a severe solar flare, such as this one pictured on May 12, or from a high altitude nuclear explosion.
Solar-Flare ‘Killshot’ Imminent :Edward Snowden
Remote viewers employed by the CIA’s Project Stargate use their ability to perceive geographically and chronologically distant events to protect America. Since 1999 they have known about the solar-flare event but have been threatened into silence by enforcers on the secret government’s payroll. As a part of hiring Snowden as a contractor, the NSA granted the 30-year-old access to all communications on earth. Now he has provided The Internet Chronicle with top-secret Federal Emergency Management Agency (FEMA) documents outlining just how terrible the solar flares’ results will be. In just two months, “the killshot” is set to disable all electronic food and water delivery systems.
Ever since the late 20th century, hundreds of millions of people have begun to rely on technological automation to enable their very lives. Solar flares release electromagnetic pulses, hazardous to electronic circuits. The smallest electronic circuits, such as those in computers’ central processing units, will be the most vulnerable.
Snowden said FEMA and the National Disaster Reduction Center of China have been taking steps for 14 years in light of the findings of Project Stargate. FEMA’s own documents, provided by Snowden, lay out how the organization plans to round up tens of millions of the poorest Americans for housing at secure locations “to better facilitate feeding and provision of consumer goods.”
Snowden, for years a CIA contractor, released testimonials from hundreds of remote viewers. Many of those remote viewers are still on the payroll of the governments of the United States and the Russian Federation. Those testimonials, though written independently by the analysts, are comprised of 4,472 pages, every single one of which, alarmingly, evince Snowden’s account.
“The massive electromagnetic pulse from the solar flares, or ‘the killshot,’ will shutter most of the world’s electrical systems,” said Snowden. “The Americans whose lives are most at risk are the elderly and the infirmed, those who depend on technology to enable their receiving home care or life-sustaining medical treatment.”
Throughout the 1970s and the 1990s, Russia and the United States were desperate to track and monitor the construction and maintenance of each other’s nuclear silos. The nations’ governments openly admitted having poured billions of dollars into the training of elite teams of remote viewers. With their powers, the remote viewers were able to deter nuclear launches and, ultimately, bring an end to the Cold War. In the mid-’90s, the CIA simply pretended to close its remote-viewing program, so that it could operate more effectively.
Snowden said he hopes that his coming forward will allow Project Stargate’s participants to be able to live normal, open lives again, “instead of as circus animals, instead of as freaks.” He added, “[Significant others of Project Stargate employees] have to get Q clearances just to cohabitate with, without even marrying, their loved ones. That’s tantamount to slavery.” Humanity is about to pay a most dire price for its technological dependence. That price, said Snowden, proved a leading factor in his decision to come forward to the press – about both the global Holocaust to ensue, as well as NSA analysts’ power, on the slightest whim, to listen to the phone calls of any person on earth.
Snowden said, with regard to CIA remote viewers, “I have seen too many brave whistleblowers become subjects of smear and ridicule for using their talents to expose the truth.” Added Snowden, bitterly, “Well, we’ll see who’s Mr. Chuckles when ‘the killshot’ goes down.” WikiLeaks attorneys; and Anatoly Kucherena, Snowden’s own counsel, together produced a video calling for calm and global preparedness. Monday, Snowden sent the video, below, to the Russian Federal Migration Service as part of his call for asylum.
source: http://www.chronicle.su/news/edward-snowden-solar-flare-killshot-cataclysm-imminent/ / http://www.danielholdings.com/searching-for-truth/of-interest/edward-snowden-solar-flare-killshot-cataclysm-imminent
Could it be that this is a phony story? http://www.chronicle.su/politics/infowars-shill-covers-up-solar-flare-killshot/
glenn greenwald reports :
Any Twitter or Facebook accounts purporting to be Edward Snowden are fake.
‘ Solar-Flare ‘Killshot’ Imminent :Edward Snowden” does it take away credibility from a real threat?
Always, do your own research & you be the judge. what can an EMP strike do ? http://en.wikipedia.org/wiki/Electromagnetic_pulse
some say actions to protect the Electrical grid will be too late from a natural or man made EMP strike
A solar flare could wipe out the communications and electrical grids while frying a wide variety of electronics, quickly sending us back to the 19th Century
Major ed dames the remote viewer talks about the kill shot Solar Flare and the events leading up to it, is this fact or fiction?
Snowden revealed that government preparations for September’s catastrophic solar flares have been “to only limited avail.”
The flares’ results, he said, are known casually throughout the global intelligence community as “the Killshot.”
from Radio Liberty ,Dr. Monteith interview from 2nd august 2013 talks with Bob Fletcher about the killshot and what Edward Snowden revealed that a series of solar flares is set to occur in September 2013
Wikipedia: A solar flare is a sudden brightening observed over the Sun’s surface or the solar limb, which is interpreted as a large energy release of up to 6 × 1025 joules of energy (about a sixth of the total energy output of the Sun each second or 160,000,000,000 megatons of TNT equivalent, over 25,000 times more energy than released from the impact of Comet Shoemaker–Levy 9 with Jupiter). They are mainly followed by a colossal coronal mass ejection also known as a CME. The flare ejects clouds of electrons, ions, and atoms through the corona of the sun into space. These clouds typically reach Earth a day or two after the event. The term is also used to refer to similar phenomena in other stars, where the term stellar flare applies.
Solar flares affect all layers of the solar atmosphere (photosphere, chromosphere, and corona), when the medium plasma is heated to tens of millions of kelvins and electrons, protons, and heavier ions are accelerated to near the speed of light. They produce radiation across the electromagnetic spectrum at all wavelengths, from radio waves to gamma rays, although most of the energy goes to frequencies outside the visual range and for this reason the majority of the flares are not visible to the naked eye and must be observed with special instruments. Flares occur in active regions around sunspots, where intense magnetic fields penetrate the photosphere to link the corona to the solar interior. Flares are powered by the sudden (timescales of minutes to tens of minutes) release of magnetic energy stored in the corona. The same energy releases may produce coronal mass ejections (CME), although the relation between CMEs and flares is still not well established.
Solar flares strongly influence the local space weather in the vicinity of the Earth. They can produce streams of highly energetic particles in the solar wind, known as a solar proton event, or “coronal mass ejection” (CME). These particles can impact the Earth’s magnetosphere (see main article at geomagnetic storm), and present radiation hazards to spacecraft, astronauts, and cosmonauts.
Massive solar flares are sometimes associated with CMEs which can trigger geomagnetic storms that have been known to knock out electric power for extended periods of time
Solar Killshots & ET Intervention-coasttocoastam interview
Remote viewing teacher Ed Dames presented his latest insights and predictions on such subjects as ‘Solar Killshot’ safe havens, ongoing extraterrestrial intervention, the Fukushima disaster, and war with Iran. We’re not going to be hit by just one mega solar flare, but a series of them over time during 2013-2014 ”that’s going to turn Earth into a veritable X-ray & proton rotisserie
The biggest flare to hit in the last 160 years was the carrington flare from 1859.
At 11:18 AM on the cloudless morning of Thursday, September 1, 1859, 33-year-old Richard Carrington—widely acknowledged to be one of England’s foremost solar astronomers—was in his well-appointed private observatory. Just as usual on every sunny day, his telescope was projecting an 11-inch-wide image of the sun on a screen, and Carrington skillfully drew the sunspots he saw.
Right: Sunspots sketched by Richard Carrington on Sept. 1, 1859. Copyright: Royal Astronomical Society: more.
On that morning, he was capturing the likeness of an enormous group of sunspots. Suddenly, before his eyes, two brilliant beads of blinding white light appeared over the sunspots, intensified rapidly, and became kidney-shaped. Realizing that he was witnessing something unprecedented and “being somewhat flurried by the surprise,” Carrington later wrote, “I hastily ran to call someone to witness the exhibition with me. On returning within 60 seconds, I was mortified to find that it was already much changed and enfeebled.” He and his witness watched the white spots contract to mere pinpoints and disappear.
It was 11:23 AM. Only five minutes had passed.
Just before dawn the next day, skies all over planet Earth erupted in red, green, and purple auroras so brilliant that newspapers could be read as easily as in daylight. Indeed, stunning auroras pulsated even at near tropical latitudes over Cuba, the Bahamas, Jamaica, El Salvador, and Hawaii.
Even more disconcerting, telegraph systems worldwide went haywire. Spark discharges shocked telegraph operators and set the telegraph paper on fire. Even when telegraphers disconnected the batteries powering the lines, aurora-induced electric currents in the wires still allowed messages to be transmitted.
“What Carrington saw was a white-light solar flare—a magnetic explosion on the sun,” explains David Hathaway, solar physics team lead at NASA’s Marshall Space Flight Center in Huntsville, Alabama.
Now we know that solar flares happen frequently, especially during solar sunspot maximum. Most betray their existence by releasing X-rays (recorded by X-ray telescopes in space) and radio noise (recorded by radio telescopes in space and on Earth). In Carrington’s day, however, there were no X-ray satellites or radio telescopes. No one knew flares existed until that September morning when one super-flare produced enough light to rival the brightness of the sun itself.
“It’s rare that one can actually see the brightening of the solar surface,” says Hathaway. “It takes a lot of energy to heat up the surface of the sun!”
Above: A modern solar flare recorded Dec. 5, 2006, by the X-ray Imager onboard NOAA’s GOES-13 satellite. The flare was so intense, it actually damaged the instrument that took the picture. Researchers believe Carrington’s flare was much more energetic than this one.
The explosion produced not only a surge of visible light but also a mammoth cloud of charged particles and detached magnetic loops—a “CME”—and hurled that cloud directly toward Earth. The next morning when the CME arrived, it crashed into Earth’s magnetic field, causing the global bubble of magnetism that surrounds our planet to shake and quiver. Researchers call this a “geomagnetic storm.” Rapidly moving fields induced enormous electric currents that surged through telegraph lines and disrupted communications.
“More than 35 years ago, I began drawing the attention of the space physics community to the 1859 flare and its impact on telecommunications,” says Louis J. Lanzerotti, retired Distinguished Member of Technical Staff at Bell Laboratories and current editor of the journal Space Weather. He became aware of the effects of solar geomagnetic storms on terrestrial communications when a huge solar flare on August 4, 1972, knocked out long-distance telephone communication across Illinois. That event, in fact, caused AT&T to redesign its power system for transatlantic cables. A similar flare on March 13, 1989, provoked geomagnetic storms that disrupted electric power transmission from the Hydro Québec generating station in Canada, blacking out most of the province and plunging 6 million people into darkness for 9 hours; aurora-induced power surges even melted power transformers in New Jersey. In December 2005, X-rays from another solar storm disrupted satellite-to-ground communications and Global Positioning System (GPS) navigation signals for about 10 minutes. That may not sound like much, but as Lanzerotti noted, “I would not have wanted to be on a commercial airplane being guided in for a landing by GPS or on a ship being docked by GPS during that 10 minutes.”
Right: Power transformers damaged by the March 13, 1989, geomagnetic storm: more.
Another Carrington-class flare would dwarf these events. Fortunately, says Hathaway, they appear to be rare:
“In the 160-year record of geomagnetic storms, the Carrington event is the biggest.” It’s possible to delve back even farther in time by examining arctic ice. “Energetic particles leave a record in nitrates in ice cores,” he explains. “Here again the Carrington event sticks out as the biggest in 500 years and nearly twice as big as the runner-up.”
These statistics suggest that Carrington flares are once in a half-millennium events. The statistics are far from solid, however, and Hathaway cautions that we don’t understand flares well enough to rule out a repeat in our lifetime.
And what then?
Lanzerotti points out that as electronic technologies have become more sophisticated and more embedded into everyday life, they have also become more vulnerable to solar activity. On Earth, power lines and long-distance telephone cables might be affected by auroral currents, as happened in 1989. Radar, cell phone communications, and GPS receivers could be disrupted by solar radio noise. Experts who have studied the question say there is little to be done to protect satellites from a Carrington-class flare. In fact, a recent paper estimates potential damage to the 900-plus satellites currently in orbit could cost between $30 billion and $70 billion. The best solution, they say: have a pipeline of comsats ready for launch.
Humans in space would be in peril, too. Spacewalking astronauts might have only minutes after the first flash of light to find shelter from energetic solar particles following close on the heels of those initial photons. Their spacecraft would probably have adequate shielding; the key would be getting inside in time.
No wonder NASA and other space agencies around the world have made the study and prediction of flares a priority. Right now a fleet of spacecraft is monitoring the sun, gathering data on flares big and small that may eventually reveal what triggers the explosions. SOHO, Hinode, STEREO, ACE and others are already in orbit while new spacecraft such as the Solar Dynamics Observatory are readying for launch.
Research won’t prevent another Carrington flare, but it may make the “flurry of surprise” a thing of the past.
Description of a Singular Appearance seen in the Sun on September 1, 1859, Monthly Notices of the Royal Astronomical Society, Vol. 20, p.13-15 — the original report by R.C. Carrington
An engaging book on the history of the 1859 Carrington flare and the detective work to sleuth its cause and significance is Stuart Clark’s The Sun Kings: The Unexpected Tragedy of Richard Carrington and the Take of How Modern Astronomy Began (Princeton University Press, 2007).
One recent analysis on the effects of a potential future solar flare of similar magnitude is “The Carrington event: Possible doses to crews in Space from a comparable event,” by L. W. Townsend et al., Advances in Space Research 38 (2006): 226–231–one of 16 articles in an entire special issue devoted to the 1859 Carrington flare.
See also “The 1859 Solar–Terrestrial Disturbance and the Current Limits of Extreme Space Weather Activity,” by E. W. Cliver and L. Svalgaard, Solar Physics (2004) 224: 407–422 (available at ) and “Forecasting the impact of an 1859-caliber superstorm on geosynchronous Earth-orbiting satellites: Transponder resources,” by Sten F. Odenwald and James L. Green, Space Weather (2007) 5: 1-16