Haarp åpnet opp på 80-tallet, men Tesla begynte med slikt allerede på slutten av 1800-tallet. Med resonans, frie elektroner, plasma og slikt. Dette tenkte jeg ikke på i forhold til værmanipulasjon tidlig på 1900-tallet. Men JP Morgan finansierte prosjektet til Nikola Tesla. Og deretter mente JP Morgan at det ikke var penger i trådløs overføring? En teknologi som konkurrerte med Marconi. Det var solstormen som slo ut masse elektrisk utstyr som fikk meg til å tenke på Tesla. Ja, fordi det var jo akkurat på den tiden der. Tesla-tårnet var bygget, men så plutselig ble det stoppet. En teknologi som kan skape til og med jordskjelv, og jeg har lenge tenkt på at de lager solstormer fra innsiden. Og det har de helt sikkert visst helt siden Tesla, men har holdt videre utvikling hemmelig. Så jeg ville bare legge til det etter forrige artikkel. Man må ta med dette også, for det gir solstormen og skadene mening. Det minner mer om et forsøk og feiling. Og det har kanskje med negativ og positiv lading å gjøre? Iallfall så synes jeg det var ganske dumt å ikke se den sammenhengen da jeg skrev Varm Arktis Til Kald Arktis. Man varmer opp atmosfæren og presser kald luft utenfor beltet og langt ned til Texas, og også langt nedenfor det. Da vil selvfølgelig nordlys kunne sees ned til Mexico, fordi det er skapt av anlegg som i Ramsfjorden. Og det er mange slike anlegg. Men nye Eiscat 3D kartlegger vel prosessen? Jeg vet ikke. Det blir jo som om de treffer jordens nerve, og det kan gi elektromagnetisk storm, lyn, støt og jordskjelv. Selvfølgelig! Jeg forstod ikke helt hvordan issmelting skulle kunne gi geomagnetiske storm, men hvis de fyrte opp Tesla-teknologi så gir det mer mening. Alt sammen. Ellers gir det ikke mening at det «varme» Arktis gir kald ytre Arktis og videre. Det er jo fortsatt kaldt der, men de forklarer det med solstorm. Ikke bare solstorm, men den gir vinterstormen ekstra effekt. Urolig og varme partikler skyver kulden utover. Er det solen, eller er det Haarp?
Og eliten er i dag vanvittig interessert i å forske på nordlys. Er det åpenhet rundt bruk av de milliardene? Hvem er det som har bestemt det? De tar seg bare til rette og skaper helvete for befolkningen. En vanvittig trang og besettelse går i de kroppene der som handler om å leke guder og å herske over mennesker og natur. Virkelig demonisk.
Her er en video fra ClimateViewer:
https://climateviewer.com/2018/11/14/ionospheric-heaters-space-weather-control-geophysical-warfare
https://en.wikipedia.org/wiki/Wardenclyffe_Tower – Tesla Tower
Tesla had begun experimenting with high-frequency alternating currents as early as 1891, and on September 2, 1897, he filed a patent for a system of transmitting electrical energy through the natural medium, using the Earth’s surface and ionosphere as a conductor (patent no. 645,576). This patent was granted on March 3, 1900.
By 1902, a good part of the Wardenclyffe laboratory and tower was complete, the result of great effort and expense. But Tesla faced increasing financial pressures and work on the Wardenclyffe Tower slowed. J.P. Morgan grew skeptical of the commercial viability of wireless power and the seemingly slow and complicated process of development. To Tesla’s great disappointment, the tremendous tower never became operational, and by 1906, the Wardenclyffe project had effectively ended. The building and tower stood silent until 1917, when it was sold for scrap. By this time, Tesla had moved on to other ideas and projects, but the failure of Wardenclyffe was a major blow to his great vision. Tesla continued to work on wireless transmission theories until his death in 1943, but he never realized his dream of a fully operational wireless power system.
The Separate «Heating» Facility
The EISCAT Scientific Association does operate a dedicated Ionospheric Heating Facility located in Ramfjordmoen, Norway.
- Function: This separate facility uses high-power, high-frequency (HF) radio waves to intentionally heat free electrons, driving the natural plasma into «unstable states» for study.
- Diagnostic Tool: EISCAT 3D and other older EISCAT radars are often used as diagnostic tools to measure the effects caused by this separate heater.
Summary of Differences (2026)
| Feature | EISCAT 3D | EISCAT Heating Facility |
|---|---|---|
| Primary Goal | Observe and image the ionosphere | Modify and heat the ionosphere |
| Technology | Phased-array radar (VHF/UHF) | High-power HF transmitters |
| Interaction | Bounces pulses off free electrons | Transfers energy to free electrons |
is haarp heating free electrons?
Yes, HAARP intentionally heats free electrons in the ionosphere as part of its primary scientific function.
As of 2026, HAARP remains the world’s most powerful «ionospheric heater,» and its core operations involve the following:
Mechanism of Heating
- Energy Transfer: HAARP’s Ionospheric Research Instrument (IRI) uses a phased array of 180 antennas to beam up to 3.6 megawatts of high-frequency (HF) radio waves into the upper atmosphere.
- Excitation: These radio waves interact with the free electrons in the ionosphere (the region between 60 km and 1,000 km altitude), increasing their kinetic energy and temperature.
- Artificial Perturbations: By heating these electrons, scientists create controlled, localized perturbations—small «bubbles» or ripples in the plasma—that mimic natural processes like the aurora.
Purpose of Heating Electrons
- Scientific Diagnostics: By controlling when and where the heating occurs, researchers can measure exactly how the ionosphere responds to energy input. This helps improve satellite communications, GPS navigation, and over-the-horizon radar.
- Artificial Airglow: Heating the electrons can excite them enough to produce a faint, visible glow (artificial airglow), typically appearing as a faint red or green patch in the sky.
The Great Geomagnetic Storm of 1921
Overview of the Event
On May 15, 1921, one of the most powerful solar storms in recorded history struck Earth, causing widespread disruptions and igniting fires. This solar event is often referred to as the Great Geomagnetic Storm. It impacted telegraph systems across Europe and North America, causing multiple telegraph offices to catch fire due to induced electrical currents.
Key Effects
- Telegraph Fires: In Sweden and New York, telegraph wires became so overheated that they ignited nearby materials, leading to significant property damage.
- Voltage Surges: Telegraph lines experienced voltage spikes up to 1000 volts, which was unprecedented. This induced current had dramatic effects on then-existing electrical systems.
- Visibility of Auroras: Unusually bright auroras were visible at low latitudes, even near the equator, showcasing the strength of the solar activity.
Explanation of the Phenomenon
The storm was triggered by a series of coronal mass ejections (CMEs) from the sun. These ejections released large amounts of plasma and magnetic fields into space, which interacted with Earth’s magnetic field. When the charged particles from the CMEs hit Earth, they caused significant disturbances, resulting in:
- Rapid changes in magnetic fields: These changes induced electric currents in conductive materials, such as the telegraph wires.
- Fires: Due to overheating, several telegraph stations caught fire, creating a dramatic scene in multiple locations.
Historical Significance
This event is a stark reminder of how solar activity can directly impact technologies and infrastructure. Studies suggest that such geomagnetic storms have the potential to disrupt modern electrical grids, satellites, and even GPS systems today, raising concerns about the vulnerabilities of our highly interconnected technological landscape.
Så innenfor samme teknologi kan de ha forskjellige formål. Så Haarp gjør ikke det samme som Tesla-Tower, men det er bygd på det samme, og de har også samme formål innen kommunikasjon og radioverføring. Med potensial for å gjøre mye skade.