High Frequency Active Auroral Research Program

High Frequency Active Auroral Research Program

: "HAARP is often confused with Project HARP, the High Altitude Research Project (a joint project of The Pentagon and the Canadian Department of National Defence).

The High Frequency Active Auroral Research Program (HAARP) is an investigation project to "understand, simulate and control ionospheric processes that might alter the performance of communication and surveillance systems."Fact|date=September 2008 Started in 1993, the project is proposed to last for a period of twenty years. The project is jointly funded by the United States Air Force, the Navy, the University of Alaska and Defense Advanced Research Projects AgencyFact|date=September 2008 (DARPA). The system was designed and built by Advanced Power Technologies, Inc.Fact|date=September 2008 (APTI) and since 2003, by BAE Systems Inc.

The HAARP site

The project site (coord|62|23|30|N|145|09|03|W|) is north of Gakona, Alaska, just West of the Wrangell-Saint Elias National Park. An environmental impact statement led to permission for an array of up to 180 antennas to be erected. The HAARP has been constructed at the previous site of an over-the-horizon radar installation. A large structure, built to house the OTH now houses the HAARP control room, kitchen, and offices. Several other small structures house various instruments. The Ionospheric Research Instrument (IRI) is the primary instrument at HAARP, which is a high-frequency (HF) transmitter system used to temporarily modify the ionosphere. Study of this modified volume yields important information for understanding natural ionospheric processes.

During active ionospheric research, the signal generated by the transmitter system is delivered to the antenna array, transmitted in an upward direction, and is partially absorbed, at an altitude between 100 to 350 km (depending on operating frequency), in a small volume a few hundred meters thick and a few tens of kilometers in diameter over the site. The intensity of the HF signal in the ionosphere is less than 3 µW/cm², tens of thousands of times less than the Sun's natural electromagnetic radiation reaching the earth and hundreds of times less than even the normal random variations in intensity of the Sun's natural ultraviolet (UV) energy which creates the ionosphere. The small effects that are produced, however, can be observed with the sensitive scientific instruments installed at the HAARP facility and these observations can provide new information about the dynamics of plasmas and new insight into the processes of solar-terrestrial interactions. [http://www.haarp.alaska.edu/haarp/tech.html]

The HAARP site has been constructed [http://www.haarp.alaska.edu/haarp/phases.html in three distinct phases] . The Developmental Prototype (DP) had 18 antenna elements, organized in three columns by six rows. It was fed with a total of 360 kilowatts (kW) combined transmitter output power. The DP transmitted just enough power for the most basic of ionospheric testing.

The Filled Developmental Prototype (FDP) had 48 antenna units arrayed in six columns by eight rows, with 960 kW of transmitter power. It was fairly comparable to other ionospheric heating facilities. This was used for a number of successful scientific experiments and ionospheric exploration campaigns over the years.

The Final IRI (FIRI) will be the final build of the IRI. It has 180 antenna units, organized in 15 columns by 12 rows, yielding a theoretical maximum gain of 31 dB. A total of 3600 kW (3.6 MW) of transmitter power will feed it. The total effective radiated power (ERP) will be 3,981 MW (96 dBW). As of the summer of 2005, all the antennas were in place, but the final quota of transmitters had not yet been installed. As of March 2007, the final phase was completed and the antenna array was undergoing testing aimed at fine-tuning its performance to comply with safety requirements required by regulatory agencies.

Each antenna element [http://www.haarp.alaska.edu/haarp/ant3.html] [http://www.haarp.alaska.edu/haarp/ant2.html] consists of a crossed dipole that can be polarized for linear, ordinary mode (O-mode), or extraordinary mode (X-mode) transmission and reception. Each part of the two section crossed dipoles are individually fed from a custom built transmitter, that has been specially designed with very low distortion. The ERP of the IRI is limited by more than a factor of 10 at its lower operating frequencies. Much of this is due to higher antenna losses and a less efficient antenna pattern.

HAARP can transmit between 2.8 and 10 MHz. This frequency range lies above the AM radio broadcast band and well below Citizens' Band frequency allocations. The HAARP is only licensed to transmit in certain segments of this frequency range, however. When the IRI is transmitting, the bandwidth of the transmitted signal is 100 kHz or less. The IRI can transmit continuously (CW) or pulses as short as 100 microseconds (µs). CW transmission is generally used for ionospheric modification, while short pulses are frequently repeated, and the IRI is used as a radar system. Researchers can run experiments that use both modes of transmission, modifying the ionosphere for a predetermined amount of time, then measuring the decay of modification effects with pulsed transmissions.

Ionospheric heating facilities

[http://www.haarp.alaska.edu/haarp/fcomp.html Comparison of the HAARP with other ionospheric facilities]
("From the HAARP website, public use permitted if source cited")

The HAARP IRI is an ionospheric heater, one of many around the world. It is comparable in function and power to most of them.Fact|date=January 2008


One of the earliest ionospheric heating facilities was at Platteville, Colorado, capable of radiating about 100 MW ERP. Early experiments included HF heater induced air-glow, heater-induced spread F, wide band heater-induced absorption, and heater-created field-aligned ionization. The Platteville heater operated from 1968–1984.

Current facilities

The United States has three ionospheric heating facilities: the HAARP, the HIPAS, near Fairbanks, Alaska, and (currently offline for modifications) one at the Arecibo Observatory in Puerto Rico. The [http://www.eiscat.se/about.html European Incoherent Scatter] Scientific Association (EISCAT) operates an ionospheric heating facility, capable of transmitting over 1 GW [http://www.kurasc.kyoto-u.ac.jp/s-ramp/abstract/s19.txt] (1,000,000,000 watts) effective radiated power (ERP), near Tromsø in Norway. Russia has the Sura ionospheric heating facility, in Vasilsursk near Nizhniy Novgorod, capable of transmitting 190 MW ERP.

HAARP management

The [http://www.darpa.mil/ucar/programs/haarp.htm HAARP] is currently being managed by the [http://www.darpa.mil/tto/ Tactical Technology Office] , which is one of the eight technical offices in [http://www.darpa.mil/tto/ DARPA] , the Defense Advanced Research Projects Agency.

Diagnostic instrumentation

*VHF radar
*UHF radar
** A digisonde provides ionospheric profiles, allowing scientists to choose appropriate frequencies for IRI operation. The HAARP makes current and historic digisonde information available online.
*HF receivers
*Fluxgate magnetometer
** A fluxgate magnetometer, built by the University of Alaska Fairbanks Geophysical Institute is available to chart variations in the earth's magnetic field. Rapid and sharp changes may indicate a geomagnetic storm.
*Induction magnetometer
** An induction magnetometer, provided by the University of Tokyo, measures the changing geomagnetic field in the ULF (ultra low frequency) range of 0-5 Hz.

Research at the HAARP

HAARP's main goal is basic science research of the uppermost portion of the atmosphere, known as the ionosphere. Essentially a transition between the atmosphere and the magnetosphere, the ionosphere is where the atmosphere is thin enough that the sun's x-rays and UV rays can reach it, but thick enough that there are still enough molecules present to absorb those rays. Consequently, the ionosphere consists of a rapid increase in density of free electrons, beginning at ~70 km, reaching a peak at ~300 km, and then falling off again as the atmosphere disappears entirely by ~1000 km. Various aspects of HAARP can study all of the main layers of the ionosphere.

The profile of the ionosphere, however, is highly variable, showing variations minute-to-minute changes, diurnal changes, seasonal changes, and year-to-year changes. This becomes particularly complicated near the Earth's poles, where a host of physical processes (like auroral lights) are unlocked by the fact that the alignment of the Earth's magnetic field is nearly vertical.

On the other hand, the ionosphere is traditionally very difficult to measure. Balloons cannot reach it because the air is too thin, but satellites cannot orbit there because the air is still too thick. Hence, most experiments on the ionosphere give only small pieces of information. HAARP approaches the study of the ionosphere by following in the footsteps of an ionospheric heater called EISCAT near Tromsø, Norway. There, they pioneered exploration of the ionosphere by perturbing it with radio waves in the 2-10 kHz range, and studying how the ionosphere reacts. HAARP performs the same functions but with significantly more power.

Some of the main scientific findings from HAARP include:
#Generation of very low frequency by modulated heating of the auroral electrojet, useful because generating VLF waves ordinarily requires gigantic antennas.
#Production of weak luminous glow (below what you can see with your eye, but measurable) from absorption of HAARP's signal.
#Production of ultra low frequency waves in the 0.1 Hz range, which are next to impossible to produce any other way.
#Generation of whistler-mode vlf signals which enter the magnetosphere, and propagate to the other hemisphere, interacting with Van Allen radiation belt particles along the way.
#VLF remote sensing of the heated ionosphere.

Research at the HAARP includes:
#Ionospheric heating
#Plasma line observations
#Stimulated electron emission observations
#Gyro-frequency heating research
#Spread F observations
#Airglow observations
#Heating induced scintillation observations
#VLF and ELF generation observations
#Radio observations of meteors
#Polar mesospheric summer echoes: Polar mesospheric summer echoes (PMSE) have been studied using the IRI as a powerful radar, as well as with the 28 MHz radar, and the two VHF radars at 49 MHz and 139 MHz. The presence of multiple radars spanning both HF and VHF bands allows scientists to make comparative measurements that may someday lead to an understanding of the processes that form these elusive phenomenon.
#Research on extraterrestrial HF radar echos: the Lunar Echo experiment (2008). [cite journal|author=Reeve, W.D.|title=The Lunar Echo Experiment (Part 1)|journal=Radio User|year=2008|issue=8|pages=56-58|issn=1748-8117|volume=3] [cite journal|author=Reeve, W.D.|title=The Lunar Echo Experiment (Part 2)|journal=Radio User|year=2008|issue=9|pages=56-57|issn=1748-8117|volume=3]

tated objectives

The HAARP project aims to direct a 3.6 MW signal, in the 2.8-10 MHz region of the HF band, into the ionosphere. The signal may be pulsed or continuous wave. Then effects of the transmission and any recovery period will be examined using associated instrumentation, including VHF and UHF radars, HF receivers, and optical cameras. According to the HAARP team, this will advance the study of basic natural processes that occur in the ionosphere under the natural but much stronger influence of solar interaction, as well as how the natural ionosphere affects radio signals. This will enable scientists to develop techniques to mitigate these effects in order to improve the reliability and/or performance of communication and navigation systems, which would have a wide range of applications in both the civilian and military sectors.

The project is funded by the Office of Naval Research and jointly managed by the ONR and Air Force Research Laboratory, with the principal involvement of the University of Alaska. Fourteen other universities and educational institutions have been involved in the development of the project and its instruments, namely the University of Alaska, Penn State University (ARL), Boston College, UCLA, Clemson University, Dartmouth College, Cornell University, Johns Hopkins University, University of Maryland, College Park, University of Massachusetts, MIT, Polytechnic University, Stanford University, and the University of Tulsa. The project's specifications were developed by the universities, which are continuing to play a major role in the design of future research efforts. There is both military and commercial interest in its outcome, as many communications and navigation systems depend on signals being reflected from the ionosphere or passing through the ionosphere to satellites. Thanks to the more penetrating properties of VLF and ELF, advancements in underwater and underground research and applications are now possible. This may lead to improved methods for submarine communication and the ability to remotely sense the mineral content of the terrestrial subsurface, among other things.

The HAARP project offers annual open days to permit the general public to visit the facility, and makes a public virtue of openness; according to the team, "there are no classified documents pertaining to the HAARP." Each summer, the HAARP holds a summer-school for visiting students, including foreign nationals, giving them an opportunity to do research with one of the world's foremost research instruments.

HAARP controversy

The HAARP's critics


The cost of building the HAARP has exceeded the dollar-adjusted cost of similar facilities around the world. HAARP was constructed at the site of an obsolete over-the-horizon radar facility for political reasons, but its location was less than ideal from a scientific perspective.Fact|date=March 2007


The objectives of the HAARP project became the subject of controversy in the mid-1990s, following claims that the antennas could be used as a weapon. A small group of American physicists aired complaints in scientific journals such as "Physics and Society" [ ["THE IMPRUDENCE OF "PRUDENT AVOIDANCE"; Physics and Society, Vol. 24, No. 3"] ] , charging that the HAARP could be seeking ways to destroy or disable enemy spacecraftFact|date=October 2007 or disrupt communications over large portions of the planet. The physicist critics of the HAARP have had little complaint about the project's current stage, but have expressed fears that it could in the future be expanded into an experimental weapon, especially given that its funding comes from the Office of Naval Research and the Air Force Research Laboratory.

These concerns were amplified by Bernard Eastlund, a physicist who developed some of the concepts behind the HAARP in the 1980s and proposed using high-frequency radio waves to beam large amounts of power into the ionosphere, energizing its electrons and ions in order to disable incoming missiles and knock out enemy satellite communications. The US military became interested in the idea as an alternative to the laser-based Strategic Defense Initiative. However, Eastlund's ideas were eventually dropped as SDI itself mutated into the more limited National Missile Defense of today. The contractors selected to build HAARP have denied that any of Eastlund's patents were used in the development of the project.

After the physicists raised early concerns, the controversy was stoked by local activism. In September 1995, a book entitled "Angels Don't Play This HAARP: Advances in Tesla Technology" by the former teacher Nick Begich, Jr., son of the late Congressman Nick Begich, claimed that the project "in its present stage" could be used for "geophysical warfare."

Russian Parliament

In August 2002, further support for those critical of HAARP technology came from the State Duma (parliament) of Russia. The Duma published a critical report on the HAARP written by the international affairs and defense committees, signed by 90 deputies and presented to then President Vladimir Putin. The report claimed that "the U.S. is creating new integral geophysical weapons that may influence the near-Earth medium with high-frequency radio waves ... The significance of this qualitative leap could be compared to the transition from cold steel to firearms, or from conventional weapons to nuclear weapons. This new type of weapons differs from previous types in that the near-Earth medium becomes at once an object of direct influence and its component." However, given the timing of the Russian intervention, it is possible that it was related to a controversy at the time concerning the US withdrawal in June 2002 from the Russian-American Anti-Ballistic Missile Treaty. This high level concern is paralleled in the April 1997 statement by the U.S. Secretary of Defense over the power of such electromagnetic weaponry. Russia owns and operates an ionospheric heater system as powerful as the HAARP [ [http://english.pravda.ru/science/19/94/379/16227_hurricanes.html USA and Russia supposedly develop secret meteorological weapons — Pravda.Ru ] ] , called 'Sura,' which is located roughly 150 km from the city of Nizhny Novgorod.

HAARP's supporters

The critics' views have been rejected by the HAARP's defenders, who have pointed out that the amount of energy at the project's disposal is minuscule compared to the colossal energies dumped into the atmosphere by solar radiation and thunderstorms. A University of Alaska Fairbanks Geophysical Institute scientist has compared the HAARP to an "immersion heater in the Yukon River."

Since the ionosphere is inherently a chaotically turbulent region, HAARP's defenders state any artificially induced changes would be "swept clean" within seconds or minutes at the most. Ionospheric heating experiments performed at the Arecibo Observatory's ionospheric heater and incoherent scatter radar have shown that after periods of modification (up to an hour), the ionosphere returns to normal within about the same period of time it had been heated.

For instance, HAARP generates 3.6 megawatts (MW) of power. 3.6 MW is considered a minuscule percentage of the energy compared to all of the energy constantly injected into the Earth, and the ionosphere, by the sun.

Furthermore, supporters of HAARP argue that its activities have been, since its establishment, extremely open. All activities are logged and publicly available. Scientists without security clearances, even foreign nationals, are routinely allowed on site. The HAARP facility regularly hosts open houses, during which time any civilian may tour the entire facility.

Possible Uses

*Extra-Terrestrial Research
*RF Signal Monitoring
*RF Signal Jamming
*RF Signal Routing & Amplification

Ethics Questions & Human Rights Concerns

There are a diversity of popular theories surrounding HAARP, crediting it with being a secret missile tracking/defense system [http://www.rumormillnews.com/cgi-bin/archive.cgi/noframes/read/90276] , earthquake tracking (or causing [http://www.thetruthseeker.co.uk/article.asp?ID=1385] ) system, weather control [http://www.globalresearch.ca/articles/CHO201A.html] , mind control, or having some other secret function [http://www.letxa.com/issue_haarp.php] .

Its boondoggle status as having cost far more than planned, and its ongoing burden on the Federal budget, is often cited in the theories, including claims that it uses far more electricity than disclosed, even causing power outages.

Proof of such theories is often said to include specific patents, which can actually be found online from the Federal patent office, that provide for the very functions HAARP is said to serve.

ee also

* "General": Plasma PhysicsTeleforceEnvironmentalismConspiracy theoriesMagnetometerPsychotronics
* "Atmosphere": IonosphereIonospheric heatingIonosondeIonospheric reflection
* "Frequencies and waves": High Frequency (HF)—Very Low Frequency (VLF)—Ultra Low Frequency (ULF)—Extremely Low Frequency (ELF)—Longitudinal waves —Transverse waves
* "Observatories": Platteville Atmospheric ObservatoryArecibo Observatory
* "Other facilities"
# European Incoherent Scatter Scientific Association
# HIPAS-HIgh Power Auroral Stimulation
# Sura Ionospheric Heating Facility
# SuperDARN It measures North and South pole Ionosphereic plasma eddy currents, sites in Kodiak, Iceland, Invercargill etc ...
# Poker Flat Research Range
# Ionospheric Observatory, subsidiary of Kharkiv Polytechnical Institute, located near Zmiiv, Ukraine (coord|49|40|37|N|36|17|32|E|) [http://www.kpi.kharkiv.edu/iion/] [http://tourist.kharkov.ua/review_niceplaces/index.php?viewtopic=16]
* "People": William E. GordonNikola Tesla


* Hansell, Clarence W., "US patent|2389432", "Communication system by pulses through the Earth"." 1945.
* Tanner, R. L., "US patent|3215937", "Extremely low-frequency antenna"." 1965.
* Leydorf, G. F., "US patent|3278937", "Antenna near field coupling system"." 1966.
* Eastlund, Bernard J., " US patent|4686605", "Method and apparatus for altering a region in the earth's atmosphere, ionosphere, and/or magnetosphere"." 1987.
* Eastlund, Bernard J., "US patent|5038664", "Method for producing a shell of relativistic particles at an altitude above the earths surface"." 1991.

Notes and references

External links

;US Air Force, US Navy, University of Alaska, Raytheon Corporation, BAE Systems/ Marconi Electronics (Tesla's NY 'long-range weapon' financeer), General Dynamics Robotics

* " [http://www.haarp.alaska.edu/ High Frequency Active Auroral Research Program] "." haarp.Alaska.edu.
* " [http://www.haarp.alaska.edu/haarp/elfindex.html About ELF] "." haarp.Alaska.edu, July 2, 1996. (ELF Generation Using HAARP)
* [http://www.darpa.mil/ucar/programs/haarp.htm HAARP] — from a Military Point Of View
* [http://en.rian.ru/analysis/20070511/65348455.html From radio telescopes to electromagnetic weapons. Russian researches]
* " [http://www.haarp.alaska.edu/haarp/imref.html Ionospheric Interaction Research References] , by U.S. Authors: 1980–1999"." haarp.Alaska.edu, June 24, 1999.
* " [http://www.haarp.alaska.edu/haarp/cam.fcgi HAARP Cam] "." haarp.Alaska.edu. (live HAARP antenna array daylight pictures)
* " [http://www.bariumblues.com/haarp_executive_summary.htm HAARP] : HF Active Auroral Research Program"." Joint Services Program Plans and Activities: Air Force, Geophysics Laboratory; Navy, Office of Naval Research. (Executive Summary)
*" [http://www.raytheonaircraft.com/government/multi_jets.shtml#main Raytheon Aircraft Company (Owner of HAARP patents, and, NOAA-funded aerosol weather modification/AESA radar weather weapons)] "
*" [http://www.na.baesystems.com/releasesDetail.cfm?a=477 BAE Systems (program and apparatus-owner of the HAARP facility, Railgun technology, electromagnetic armor, and, a sub-corporation partner with Raytheon via British Aerospace Corporation]
*" [http://www.gdrs.com/news/ General Dynamics Robotics (owned by Raytheon Corp) — military contractor/manufacturer of Unmanned Autonomous Vehicles (UAV) aircraft designed for "all-weather", computer-controlled weapons defense progams]
*" [http://www.lockheedmartin.com/wms/findPage.do?dsp=fec&ci=12498&rsbci=0&fti=112&ti=0&sc=400 Boeing, Lockheed Martin, BAE Systems, and Raytheon to create B2B exchange for the aerospace and defense industry, powered by Microsoft] "

;Other facilities and agencies
*" [http://uncletaz.com/library/scimath/tesla/weapon.html Tesla's Wardenclyffe Tower 'Long Range Weapon' research history, construction, utilization, association w/ Marconi Company / GE, and future ionospheric heater plans] "
* Häggström, Christian, " [http://www.eiscat.se/heating/ European Incoherent SCATter's ionospheric Heating facility] including Dynasonde"." eiscat.se, 4 July 2003.
* Zabotin, Nikolay, " [http://www.ngdc.noaa.gov/stp/IONO/Dynasonde/SpEatHeating.htm Evidence for Precipitation of Energetic Particles by Ionospheric Heating Transmissions] "." noaa.gov, December 7, 2004.
*" [http://www.lockheedmartin.com/wms/findPage.do?dsp=fec&ci=12498&rsbci=0&fti=112&ti=0&sc=400 Boeing, Lockheed Martin, BAE Systems, and Raytheon to create B2B exchange for the aerospace and defense industry, powered by Microsoft] "
*" [http://commerce.senate.gov/public/index.cfm?FuseAction=PressReleases.Detail&PressRelease_Id=248556 The Weather Modification Operations and Research Board (passed Oct.2005) — in corporate cooperation with BAE Systems (HAARP apparatus & facility owner) and Raytheon Corporation (HAARP patent owner)]
*"the Weather Modification Operations and Research Board on Wiki"

*" [http://www.indybay.org/newsitems/2006/05/06/18214461.php HAARP Completed! — news compilation] "
*" [http://www.dhs.gov/xprepresp/committees/editorial_0566.shtm President Bush's National Response Plan] "
* Demirkol, [http://www-star.stanford.edu/~vlf/HAARP/ Characterization of the Modified and Ambient Lower Ionosphere for HAARP using VLF diagnostics] "." leland.stanford.edu. (Impact of HAARP on VLF signals, a 2% effect.)
* Hagfors, T., " [http://www.eiscat.uit.no/heating/abs7.html Early Ionospheric HF Modification Work in Arecibo] ". Max Planck Institut für Aeronomie, Katlenburg-Lindau, Germany.
* McQuerry, Shawn, " [http://grison.colorado.edu/pao-lower/History/index.html Platteville Heating Experiments] " [http://grison.colorado.edu/pao-lower/History/history_references.html References] .
* DLC, " [http://www-star.stanford.edu/~vlf/Science/Science.html VLF Group Science Background] "." nova.stanford.edu, June 13, 1995. (VLF Tutorial)
* Inan, U. S., and T. F. Bell, " [http://www-star.stanford.edu/~vlf/pars/pars.htm Polar Aeronomy and Radio Science] (PARS)" STAR Laboratory, Stanford University. [ULF/ELF/VLF PROJECT]
* Inan, U. S., M. Golkowski, D. L. Carpenter, N. Reddell, R. C. Moore, T. F. Bell, E. Paschal, P. Kossey, E. Kennedy, and S. Z. Meth (2004),), Multi-hop whisler-mode ELF/VLF signals and triggered emissions excited by the HAARP HF heater, Geophys. Res. Lett., 31, L24805, doi:10.1029/2004GL021647 " [http://www-star.stanford.edu/~vlf/publications/2004-06.pdf]
*Brendan Bombaci, [http://web.mac.com/kairologic/iWeb/h%26e/prophesies/C1203471-D06D-4848-848B-3751FDDD826F.html "Weather Modification Exposed; media journals and notes for the independent film documentary"] "Heaven & Earth", ongoing internet-based production as of 2007.

;Satellite Image
* [http://maps.google.com/maps?f=q&hl=en&q=62.39%C2%B0+N,+145.15%C2%B0+W&ll=62.389972,-145.149994&spn=0.036835,0.171661&t=k Google maps satellite image of HAARP]

* [http://thought-criminal.org/article/node/1140 Russian Journal: HAARP Could Capsize Planet] (08 January 2008)
* Marshall D. Smith [http://www.brojon.org/frontpage/bj1204.html The Unauthorized History of HAARP] (27 June 2000)
* Jerry E. Smith author [http://jerryesmith.com personal website]
** "HAARP: The Ultimate Weapon of the Conspiracy"." Adventures Unlimited Press, 1998. ISBN 0-932813-53-4
* " [http://portland.indymedia.org/en/2004/12/305741.shtml HAARP Tremors Rock Earth Deep Beneath San Andreas Fault] "." Portland IMC.
* Begich, Nick, and Jeane Manning, " [http://www.haarp.net/ The Military's Pandora's Box] "." haarp.net.
* "To Understand HAARP: [http://portland.indymedia.org/en/2005/01/307309.shtml NWO's Scalar Electromagnetics] : secret 20th century parallel tech path"." Portland IMC. (This article is an assemblage of scalar electromagnetics information detailed by scientist Tom Bearden).
*www.ethericwarriors.com—to learn how to neutralize HAARP facilities in your area.
* [http://www.ikerjimenez.com/conspiracion/haarp Ikerjimenez.com] Completo Dossier sobre HAARP y otras transmisiones secretas.

;Films and movies
* " [http://www.thedossier.ukonline.co.uk/video_cover-ups.htm Owning the Weather] " Discovery Channel, 2005
** Documentary covers traditional and modern forms of weather modification including a segment on HAARP.
* [ Digisonde home page]
* [ Current and archived magnetometer data]
* [ Induction Magnetometer data page]
* [http://www.haarp.alaska.edu/haarp/magind.html Induction Magentometer description page]
* GoogleEarth Searchbar: 62°23'39.12"N 145° 8'42.00"W

* [http://www.darpa.mil/tto/programs/haarp.htm HAARP, Mr. Roger Hall]
* [http://www.nrl.navy.mil/content.php?P=04REVIEW106 Technical Details, E.J. Kennedy, P. Rodriguez, and C.A. Selcher]
* [http://wwwppd.nrl.navy.mil/whatsnew/haarp/ A few simulations]

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