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  • SpaceWeather.com — News and information about meteor showers, solar flares, auroras, and near-Earth asteroids
    https://spaceweather.com

    3 MILLON YEARS AGO, AN INTERSTELLAR CLOUD HIT EARTH: Today, Earth is in a safe space. Like all the other planets in the Solar System, it is cocooned within the sun’s magnetic field—a giant bubble called “the heliosphere.” The heliosphere protects us from dangerous things in the Galaxy like interstellar clouds and cosmic rays.

    3 million years ago, the heliosphere may have collapsed. A new paper just published in Nature Astronomy argues that a dense cloud of gas hit the Solar System, compressing the heliosphere to a fraction of its usual size.

    “Earth suddenly was outside the protective bubble,” says the paper’s lead author Merav Opher, a fellow at Harvard Radcliffe Institute and professor at Boston University. “Earth and all the planets were exposed to massive amounts of hydrogen, increased radiation, and interstellar dust.”

    Researchers have long wondered if something happened to Earth 2 to 3 million years ago. Deep-sea sediments, Antarctic snow, and lunar samples from that time period all contain extraterrestrial radioactive isotopes (iron-60 and plutonium-244). The peak is quite striking.

    A nearby supernova might have peppered Earth with these substances, but Opher and colleagues had a different idea. In the constellation Lynx there is a ribbon-shaped cluster of dense interstellar clouds. Using a velocity model for the clouds, they found that the sun and at least one of the clouds may have crossed paths 2 to 3 million years ago

    “We show that during the cloud’s passage, the heliosphere shrinks to a scale of 0.22 AU, smaller than the Earth’s orbit around the sun,” says Opher. According to their simulation, the helioshere was compressed and stretched into a tadpole-like structure with Earth’s orbit (red circle) on the outside:
    There is some evidence that Earth cooled while it was outside the heliosphere. Deep in our oceans, fossils of tiny marine organisms known as foraminifera preserve ancient climate data. Oxygen isotopes in those fossils suggest the temperature dropped 2–3 million years ago. Could this be a result of interstellar gas and cosmic rays altering our atmosphere?

    “This idea should be revisited with modern atmospheric modelling,” the authors urge.

    Eventually, the cloud passed and the heliosphere bounced back. “Earth was inside its protective bubble again,” says Opher. It’s a good place to be.

    L’étude complète : https://www.nature.com/articles/s41550-024-02279-8

  • SpaceWeather.com — News and information about meteor showers, solar flares, auroras, and near-Earth asteroids
    https://spaceweather.com

    THE SOLAR ECLIPSE SHIFTED TIME SIGNALS IN THE USA: The US National Institute of Standards and Technology (NIST) has a radio station in Fort Collins, Colorado. Call letters: WWV. Operating at multiple shortwave frequencies, WWV broadcasts precise time and frequency information 24/7 to listeners worldwide. On April 8, 2024, the frequency of WWV shifted:

    This plot also contains data from WWV’s sister station in Hawaii, WWVH

    “It was the solar eclipse,” says ham radio operator Kristina Collins (W8EDU) of Cleveland, Ohio, who assembled records from 13 monitoring stations in and around the path of totality. “The HamSCI Personal Space Weather Station Network’s Grape stations measure Doppler shift in the carrier signal of time standard radio stations such as WWV. On April 8th, the network saw a distinct S-curve signature associated with the eclipse.”

    The Doppler shift occured when the shadow of the Moon pierced the ionosphere, creating a temporary hole where ionization was reduced. This, in turn, altered the “skip distance” from transmitters to receivers, as shown in the diagram below:

    Because the skip point was moving, reflected radio signals were naturally Doppler-shifted. Spaceweather.com reader and senior physicist Larry Carr of Brookhaven National Labs made this calculation: “Using the 10 MHz WWV frequency, an average shift of about 1/2 Hz implies the layer bottom (the ’skip point’) was moving at speeds up to 15 m/s. During the entire eclipse, the reflecting layer moved on the order of 50 km.”

    The total Doppler shift was only a few cycles per second, similar to normal night-day variations, so no one actually lost track of time during the eclipse. Nevertheless, it is a fascinating demonstration of an eclipse’s power to touch the Earth.

    (Intéééreeessaaaant ♪♫ Intéressant)