#strontium

Optical clock sets new accuracy record, bringing us closer to a new definition of the second

A research team at VTT MIKES has set a new record in optical-clock absolute frequency measurements using a strontium single-ion clock with exceptionally low uncertainty and high uptime. The official definition of the second is set to be updated for the first time in decades. The change will be based on new optical clocks, which are far more precise than today's standards. Now, researchers at VTT MIKES have demonstrated a strontium single-ion optical clock with an exceptionally low systematic uncertainty of 7.9×10⁻¹⁹, among the lowest ever reported. Over 10 months, the clock's frequency was measured against International Atomic Time (TAI) with an impressive 84% uptime. The record-setting total uncertainty of this measurement was just 9.8×10⁻¹⁷, limited by the cesium clocks that realize the current definition of the second and calibrate TAI. The study is published in Physical Review Applied.

For approximately three decades, the leaders of the New Manhattan Project have been saturating our atmosphere with a complex chemical mixture sprayed from the rear of their aircraft. This spray does not correspond to normal jet engine emissions. Contrary to the claims of those who deny this reality, the most common chemtrail sprays contain primarily aluminum, barium, and strontium, in that order of importance.

Hundreds of laboratory analyses conducted around the world have confirmed these results. Rainwater samples collected in Europe and the Americas consistently reveal high concentrations of these three elements. This data is available on numerous specialized platforms, and countless other verifiable analyses have been published worldwide.

Distinct Functions of Each Substance

Aluminum oxide is the main substance in these sprays. The New Manhattan Project uses these aluminum oxide particles to modify weather conditions. When these microscopic particles are dispersed and then activated by the appropriate electromagnetic energy, they heat up. This electromagnetic disruption of atmospheric particles is the defining characteristic of the new Manhattan Project.

When large volumes of particles in the lower atmosphere are heated, a high-pressure zone is formed. This ability to create high-pressure zones makes it possible to displace surrounding low-pressure systems. By combining the documented heating capacity of the ionosphere with its ability to modify air currents, along with numerous other techniques, weather modification becomes possible.

Barium serves a different purpose: it serves as a tracer for atmospheric data collection rather than for weather modification. Its effectiveness as a tracer stems from its ability to become radioactive, making it highly visible on radar. The scientific literature on weather modification and atmospheric science is replete with references to radioactive materials like barium used as atmospheric tracers.

A 1962 report from the National Academy of Sciences, entitled "Atmospheric Sciences from 1961 to 1971," states: "Radioactive substances with suitable half-lives, when sprayed into the air, are very useful as beacons for studying air movements on many scales. Tracers used in sufficient quantities for this purpose could add enormously to our knowledge of atmospheric currents and their dispersion in air masses."

Strontium as a Catalyst

Although the precise reasons for strontium's presence in the analyses remain poorly understood, this substance can serve as a photosensitive catalyst. It could be used to release bound aluminum in the form of oxides upon exposure to UV and visible light. Free aluminum exhibits a much higher conductivity than aluminum oxide, thus allowing for better propagation of the electromagnetic waves of the new Manhattan Project.

West of the Rockies, strontium may also be coming from fallout from the Fukushima nuclear disaster. Updrafts from storms over the Pacific Ocean can carry strontium from Fukushima, where radioactive products and air pollutants continue to leak into the seawater.

Historical Development of Aluminum

Since at least 1954, researchers have been developing aluminum formulations ultimately used in the current Manhattan Project. This chronological evolution of aluminum nucleation for weather modification reveals a steady scientific progression.

In 1958, Norihiko Fukuta of Nagoya University in Japan published a paper entitled "Experimental Investigations on the Ice-Forming Ability of Various Chemical Substances." This work referenced an earlier 1954 paper by Asada, Saito, Sawai, and Matsumoto, which had discovered the effectiveness of aluminum oxide as a nucleating agent.

The 1962 U.S. Patent No. 3,274,035, "Metallic Composition for the Production of Hygroscopic Smoke," by Lohr A. Burkardt and William G. Finnegan, described how aluminum, barium, and strontium could be used in "a mixture that produces hygroscopic smoke to influence the weather."

Zettlemoyer's Contributions

In 1964, the National Science Foundation presented the work of Dr. Albert Zettlemoyer, a leading figure in this field. Zettlemoyer discovered that small particles combining hydrophilic (water-attracting) and hydrophobic (water-resistant) regions could retain more water than uniformly hydrophilic particles.

According to the NSF's 6th Annual Report on Weather Modification, Zettlemoyer established that "optimized nucleation efficiency is achieved when 20 to 30% of the nucleation surface is covered with hydrophilic zones and the remainder is hydrophobic." His research showed that silicas, clays, alumina, bauxite, and magnesite were good nucleation materials after appropriate treatment.

Evolution to Modern Geoengineering

In 1991, U.S. Patent No. 5,003,186, "Welsbach Stratospheric Seeding to Reduce Global Warming," was issued to Hughes Aircraft Company. This patent described a method of dispersing particles into the upper atmosphere to combat global warming, suggesting the use of aluminum oxide for this purpose.

In the mid-1990s, Edward Teller of Lawrence Livermore Science Laboratories, along with Lowell Wood and Roderick Hyde, wrote a series of papers advocating the spraying of megatons of aluminum to counter global warming. This period coincides with the first widespread reports of chemtrail spraying in American skies.

In their 1997 paper "Global Warming and the Ice Age," the Livermore Labs trio wrote: "It has been proposed that alumina could be injected into the stratosphere through the exhaust of solid rocket engines, which could reflect significant amounts of sunlight back into space."

David Keith and Harvard

In 2010, David Keith, a leading figure in geoengineering, suggested in his paper "Photophoretic Levitation of Artificial Aerosols in Geoengineering," the use of particles made of aluminum and barium to modify the climate. Keith, a professor at Harvard University, has received geoengineering grants from the Innovative Energy and Climate Research Fund, funded by donations from Bill Gates.

In 2012, the Journal of Weather Modification published an article titled "A Nucleating Agent for Cloud Seeding That Isn't Silver Iodide, But Alumina (Al2O3)." Authors William G. Finnegan and Lee Ates proposed spraying alumina to modify the weather and replace the traditional silver iodide industry.

Particle Size Issues

The aluminum particles dispersed as part of the new Manhattan Project may or may not be nanometer-sized. This question is critical because nanometer-sized aluminum particles, once inhaled, pass directly into the bloodstream and brain, causing a multitude of neurological disorders.

The scientific literature indicates various optimal sizes. In 1963, Zettlemoyer concluded that particle sizes should range from 0.01 to 10 microns, or 10 to 10,000 nanometers. A 1970 NOAA report mentioned effective aluminum particles between 0.05 and 1 micron (50 to 1,000 nanometers). In 2010, David Keith proposed particles of approximately 20 microns (20,000 nanometers).

The Welsbach Effect and Resonance

For sprays to be effective, the dispersed particles must interact properly with the applied electromagnetic energy. When aluminum particles are activated by the correct electromagnetic frequency, they heat up. This optimal heating frequency is called the "resonant frequency."

When large masses of atmospheric alumina particles are heated by specific electromagnetic energy, they behave like a plasma. The heated aluminum particles cause surrounding particles to resonate through a phenomenon called the "Welsbach effect," demonstrated in the mantle of a gas lantern.

The New Manhattan Project transforms our atmosphere into a gigantic mantle, where chemtrail sprays form the mantle material and the applied electromagnetic energy provides the necessary activation.

This investigation reveals a consistent historical evolution in the development of technologies to disperse aluminum, barium, and strontium into the atmosphere for climate modification purposes. The documentary evidence, spanning several decades, establishes a continuity between the initial scientific research and the contemporary applications observed in the New Manhattan Project. Source - - Click Link

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much love for Strontium ❤️