时间:2024-11-23 16:05:58 来源:网络整理编辑:百科
Explosive storms spawned by interactions between the magnetic fields of Earth and the sun can endang
Explosive storms spawned by interactions between the magnetic fields of Earth and the sun can endanger satellites, spacecraft and astronauts in space, as well as power grids on Earth. Now, a fleet of NASA spacecraft has for the first time directly witnessed the mysterious way in which these magnetic explosions occur.
This work could help shed light on dangerous solar outbursts and help improve the design of advanced nuclear reactors, researchers said. The discovery was made using NASA's Magnetospheric Multiscale mission (or MMS for short), which launched four spacecraft into Earth's magnetosphere, the bubble of plasma controlled by the planet's magnetic field.
"We hit the jackpot," study co-author Roy Torbert, deputy principal investigator of MMS, said in a statement. "We were able to perform the first-ever physics experiment in this environment."
"We designed the MMS mission to use Earth's magnetosphere as a giant laboratory."
Plasma makes up the sun and stars, and is the most abundant form of ordinary matter in the universe, consisting of approximately equal numbers of positively and negatively electrically charged particles. Ordinary matter, the kind that makes up people, planets, the sun and stars, makes up only about one-sixth of the universe's matter, while mysterious dark matter makes up the rest.
Plasmas are often permeated by powerful forests of magnetic field lines. When one magnetic region encounters another whose magnetic field lines are oriented differently, their magnetic field lines can clash, break and reconnect with each other, explosively converting magnetic energy to heat and kinetic energy. These encounters can happen, for instance, when a gust of plasma from the sun collides with Earth's magnetosphere.
"Imagine two trains traveling toward each other on separate tracks, but the trains are switched to the same track at the last minute," study co-author James Drake, at the University of Maryland, said in a statement. "Each track represents a magnetic field line from one of the two interacting magnetic fields, while the track switch represents a reconnection event. The resulting crash sends energy out from the reconnection point like a slingshot."
A constellation of four satellites orbit through Earth's magnetic field to study the mysterious phenomenon called magnetic reconnection.Credit: Karl TatE/nasa, goddard Space flight centerMagnetic reconnection can have major impacts on Earth. For example, it drives explosive solar events such as solar flares and coronal mass ejections. These, in turn can generate not only spectacular auroras, but also geomagnetic storms. In 1989, a geomagnetic storm blacked out the entire Canadian province of Quebec, leaving millions of people in the dark and damaging transformers as far away as New Jersey. Storms 10 times worse are possible, such as an 1859 solar superstorm known as the Carrington Event.
"It could lead to better space-weather forecasting."
"Since reconnection drives space weather, a better understanding of it could lead to better space-weather forecasting," said study lead author James Burch, a space physicist at the Southwest Research Institute in San Antonio, Texas.
Magnetic reconnection can also hamper experimental nuclear-fusion reactors that aim to re-create the power that drives the sun and stars here on Earth. These reactors often attempt to use magnetic fields to confine and heat plasmas to the point where nuclear fusion is triggered. "If this can be done, it would solve the energy crisis permanently," Burch told Space.com.
"One of the main things that is keeping magnetic-confinement fusion from working is reconnection, which causes 'sawtooth crashes' — these are periodic reductions in electron temperature, which keep the temperature below the fusion trigger point," Burch explained. "A better understanding of reconnection could lead to methods of quenching it in these devices."
This diagram of the Earth's magnetic field shows where magnetic reconnections occur between oppositely directed fields (in box). NASA's Magnetospheric Multiscale mission spacecraft are studying this region to monitor the explosive magnetic reconnection events.Credit: James burchScientists want to pinpoint exactly what triggers magnetic reconnection, but until now, researchers have seen reconnection only in the laboratory. MMS is the first space mission focused on understanding how this phenomenon works not just on Earth, but also on the sun, other stars and throughout space.
"We've studied it theoretically, and we've simulated it with supercomputers, but up to now we haven't known what controls the conversion of magnetic energy into particle energy," Burch said in a statement. "We designed the MMS mission to use Earth's magnetosphere as a giant laboratory to perform the definitive experiment on reconnection."
MMS is made up of four identical solar-powered spacecraft, each equipped with an identical set of 11 instruments made of 25 sensors, the fastest-responding sensors that NASA has ever flown. The octagonal, 3,000-lb. (1,360 kilograms) probes are flying in a near-equatorial orbit, ranging from about 6 to 250 miles (10 to 400 kilometers) from each other.
Magnetic reconnection is an extremely fast event that shoots out protons and electrons. Previous research had analyzed the motions of protons during magnetic reconnection, but now MMS has for the first time captured direct measurements of the movements of the electrons during magnetic reconnection.
"There have been theories about the movement of electrons in magnetic reconnection for decades, but this is the first real proof of what they do," study co-author Jonathan Eastwood, at Imperial College London, said in a statement. "We have known what should be there, but knowing and actually measuring are two very different things."
The spacecraft not only examined electron motions on a minute scale, but also tracked electrons much faster than previous satellites had, imaging the particles once every 30 milliseconds.
"Satellite measurements of electrons have been too slow by a factor of 100 to sample the magnetic reconnection region," study co-author Tom Moore, at NASA's Goddard Space Flight Center in Greenbelt, Maryland, said in a statement. "The precision and speed of MMS, however, opened up a new window on the universe."
"The level of detail allows us to see things that were previously a blur," Drake said in a statement.
This NASA graphic depicts the tetrahedral (or pyramid-like) formation NASA's four Magnetospheric Multiscale mission spacecraft fly in to monitor magnetic reconnection events.Credit: NASA GSFCOn Oct. 16, 2015, MMS flew directly through the heart of a reconnection region in Earth's magnetosphere.
For reconnection to occur, plasma has to become de-magnetized. The final critical stage in this event happens in a relatively small patch of space known as the electron-dissipation region. "The spacecraft passed directly through the electron-dissipation region," Torbert said in a statement.
"We now have a 'microscope' that for the first time allows us to see reconnection in action."
The data showed a drop in the magnetic field to near zero, ions flowing in opposite directions, accelerated electrons, a strong electrical current and an enhanced electric field — all signs that the spacecraft had entered an electron-dissipation region, the researchers said.
However, the key signature of reconnection was a spike detected in the electric power generated by the electrons, the researchers said.
"This was the 'smoking gun' for reconnection," Burch said in a statement. "It was theoretically predicted, but never seen until MMS."
The spacecraft also saw electrons in the electron-dissipation region rapidly accelerate outward along magnetic field lines opened during reconnection. The researchers said this was due to the interconnection of the solar and terrestrial magnetic fields, the first time scientists have definitively measured such an event.
"These data have truly opened a new window on the part of the universe where reconnection occurs," Burch said. "Where before we had 'telescopes' to view the results of reconnection, we now have a 'microscope' that for the first time allows us to see reconnection in action."
It remains a mystery how electric fields are generated during magnetic reconnection. "There are several theories, and choosing among them require measurements with all four spacecraft within the reconnection region simultaneously," Burch said. "So far, we have had three inside it simultaneously, with the fourth one coming in slightly later. We plan to reduce the spacecraft separation from 10 km [6.2 miles] to closer to 5 km [3.1 miles] to address this issue."
The MMS mission is currently in its first phase, with spacecraft flying through reconnection sites on Earth's dayside, where matter from the sun connects with Earth's magnetic field.
During its second phase, MMS will zip through reconnection sites on Earth's nightside, where that solar material can flow to the teardrop-shaped tail of Earth's magnetic field. Magnetic reconnection events on Earth's nightside are expected to be more explosive, Eastwood said.
"In the tail, we should have no problem getting all four spacecraft in the reconnection region at once," Burch said.
The scientists detailed their findings online May 12 in the journal Science.
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