March 28, 2024

Mysteries Abound: NASA Studying the Edge of the Sun’s Magnetic Bubble

To understand the heliosphere, start by breaking apart the word, recommends David McComas, professor of astrophysical sciences at Princeton University in New Jersey. “Heliosphere” is the mix of two words: “Helios,” the Greek word for the Sun, and “sphere,” a broad area of impact (however, to be clear, researchers arent sure of the heliospheres exact shape).
The heliosphere was found in the late 1950s, and many questions about it remain. As researchers study the heliosphere, they find out more about how it minimizes astronauts and spacecrafts exposure to radiation and more normally, how stars can influence their close-by planets.
A balloon in area
Some radiation surrounds us every day. Were basking in radiation from the Sun when we sunbathe. We utilize radiation to warm leftovers in our kitchen microwaves and depend on it for medical imaging.
Space radiation, however, is more similar to the radiation released by radioactive components like uranium. The area radiation that comes at us from other stars is called galactic cosmic radiation (GCR). Active locations in the galaxy– like supernovae, black holes, and neutron stars– can remove the electrons from atoms and accelerate the nuclei to nearly the speed of light, producing GCR.
The heliosphere modifications in size throughout the solar cycle. Credit: NASAs Goddard Space Flight Center/Scientific Visualization Studio/Tom Bridgman
In the world, we have three layers of security from area radiation. The first is the heliosphere, which helps obstruct GCR from reaching the major planets in the planetary system. In addition, Earths magnetic field produces a guard called the magnetosphere, which keeps GCR out far from Earth and low-orbiting satellites like the International Space Station. The gases of Earths atmosphere soak up radiation.
When astronauts head to the Moon or to Mars, they will not have the very same protection we have on Earth. Theyll only have the protection of the heliosphere, which fluctuates in size throughout the Suns 11-year cycle.
In each solar cycle, the Sun goes through durations of extreme activity and powerful solar winds, and quieter durations. Like a balloon, when the wind relaxes, the heliosphere deflates. The heliosphere broadens when it selects up.
” The effect the heliosphere has on cosmic rays enables human exploration missions with longer duration. In a way, it permits people to reach Mars,” stated Arik Posner, a heliophysicist at NASA Headquarters in Washington, D.C. “The obstacle for us is to better comprehend the interaction of cosmic rays with the heliosphere and its limits.”
Anatomy of the heliosphere
There is some dispute about the precise shape of the heliosphere. Researchers concur that it has numerous layers. Lets take a look at the layers from inside outside:
This illustration shows the position of NASAs Voyager 1 and Voyager 2 probes, outside of the heliosphere, a protective bubble developed by the Sun that extends well past the orbit of Pluto. Credits: NASA/JPL-Caltech

Were safeguarded from that radiation by the heliosphere, which itself is developed by another source of radiation: the Sun.” Magnetic fields tend to push up versus each other, however not mix,” said Eric Christian, a lead heliosphere research scientist at NASAs Goddard Space Flight Center in Greenbelt, Maryland. “Inside the bubble of the heliosphere are quite much all particles and magnetic fields from the Sun. The very first is the heliosphere, which assists block GCR from reaching the significant planets in the solar system. Termination shock: All of the major planets in our solar system are situated in the heliospheres innermost layer.

Termination shock: All of the significant planets in our planetary system lie in the heliospheres innermost layer. Here, the solar wind emanates out from the Sun at complete speed, about a million miles per hour, for billions of miles, untouched by the pressure from the galaxy. The outer limit of this core layer is called the termination shock.
Heliosheath: Beyond the termination shock is the heliosheath. Here, the solar wind moves more gradually and deflects as it deals with the pressure of the interstellar medium outside.
Heliopause: The heliopause marks the sharp, last plasma boundary between the Sun and the rest of the galaxy. Here, the electromagnetic fields of the interstellar and solar winds rise against each other, and the inside and outdoors pressures are in balance.
External Heliosheath: The area just beyond the heliopause, which is still influenced by the presence of the heliosphere, is called the outer heliosheath.

An illustration of the heliosphere being showered with cosmic rays from outdoors our solar system. Credit: NASAs Goddard Space Flight Center/Conceptual Image Lab
Our corner of the universe, the planetary system, is situated inside the Milky Way galaxy, house to more than 100 billion stars. The solar system is enclosed in a bubble called the heliosphere, which separates us from the huge galaxy beyond– and a few of its severe space radiation.
Were protected from that radiation by the heliosphere, which itself is created by another source of radiation: the Sun. The Sun continuously spews charged particles, called the solar wind, from its surface. The solar wind flings out to about 4 times the range of Neptune, bring with it the electromagnetic field from the Sun.
The heliosphere within the Milky Way galaxy. Credit: NASAs Goddard Space Flight Center/Conceptual Image Lab/Walt Feimer
” Magnetic fields tend to rise against each other, but not blend,” said Eric Christian, a lead heliosphere research scientist at NASAs Goddard Space Flight Center in Greenbelt, Maryland. “Inside the bubble of the heliosphere are practically all particles and magnetic fields from the Sun. Outside are those from the galaxy.”

How we study the heliospheres outer reaches
Numerous NASA objectives study the Sun and the innermost parts of the heliosphere. Just two human-made things have actually crossed the limit of the solar system and entered interstellar space.
In 1977, NASA released Voyager 1 and Voyager 2. They discovered that cosmic rays are about 3 times more intense outside the heliopause than deep inside the heliosphere.
The photo the Voyagers paint is insufficient.
” Trying to figure out the whole heliosphere from 2 points, Voyager 1 and 2, resembles trying to figure out the weather condition in the entire Pacific Ocean using 2 weather condition stations,” Christian stated.
The Voyagers work with the Interstellar Boundary Explorer (IBEX) to study the heliosphere. IBEX is a 176-pound, suitcase-sized satellite released by NASA in 2008. Ever since, IBEX has actually orbited Earth, geared up with telescopes observing the external boundary of the heliosphere. IBEX captures and evaluates a class of particle called energetic neutral atoms, or ENAs, that cross its path. ENAs form where the solar wind and the interstellar medium fulfill. Some ENAs stream back toward the center of the solar system– and IBEX.
” Every time you collect among those ENAs, you know what instructions it originated from,” said McComas, IBEXs primary private investigator. “By collecting a great deal of those specific atoms, youre able to make this inside out image of our heliosphere.”
In 2025, NASA will launch the Interstellar Mapping and Acceleration Probe (IMAP). IMAPs ENA electronic cameras are higher resolution and more sensitive than IBEXs.
Mysteries are plentiful
In 2009, IBEX returned a finding so shocking that researchers at first wondered if the instrument might have malfunctioned. That discovery became referred to as the IBEX Ribbon– a band across the sky where ENA emissions are two or 3 times brighter than the rest of the sky.
” The Ribbon was completely unanticipated and not prepared for by any theories prior to we flew the objective,” McComas stated. Its still not completely clear what causes it, but it is a clear example of the secrets of the heliosphere that remain to be found.
NASAs Interstellar Boundary Explorer, or IBEX, studies the heliosphere from its orbit around Earth. IBEXs first-ever skymap showed a surprising feature dubbed the “IBEX ribbon.” Credits: NASA/IBEX
” Our Sun is a star like billions of other stars in the universe. A few of those stars also have astrospheres, like the heliosphere, but this is the only astrosphere we are really within and can study closely,” stated Justyna Sokol, a research researcher at Southwest Research Institute in San Antonio, Texas. “We need to start from our area to discover a lot more about the remainder of the universe.”