+

Cookies on the Business Insider India website

Business Insider India has updated its Privacy and Cookie policy. We use cookies to ensure that we give you the better experience on our website. If you continue without changing your settings, we\'ll assume that you are happy to receive all cookies on the Business Insider India website. However, you can change your cookie setting at any time by clicking on our Cookie Policy at any time. You can also see our Privacy Policy.

Close
HomeQuizzoneWhatsappShare Flash Reads
 

Scientists have measured a comet's impenetrable shield in action for the 1st time

Jul 31, 2015, 23:29 IST

esa

Comets are often referred to as the dirty snow balls of space, and they are in a constant battle against the sun, which is trying to strip them bare.

Advertisement

To protect themselves from annihilation, comets have an external shield, and for the first time scientists have measured this shield in action on one of the most famous comets in the solar system: Comet 67P/Churyumov-Gerasimenko.

Moreover, the scientists' measurements have revealed what sort of material is on the Comet 67P's surface, and it's different from what they might have expected.

Dirty snowball vs. sun

Attacking the comet is a phenomenon called the solar wind. In addition to light, the sun is constantly emitting invisible, high-energy-charged particles that make up the solar wind.

The solar wind can travel millions of miles into deep space, and when it bombards comets the high-energy particles interact with the water vapor in what is called the comet's coma, like so:

Advertisement

Modelling and simulation: Technische Universität Braunschweig and Deutsches Zentrum für Luft- und Raumfahrt; Visualisation: Zuse-Institut Berlin

The coma acts like the comet's atmosphere - it's formed by the sun heating up ice on the surface that then sublimates into a gas and collects into a cloud around the comet. This vaporous cloud is what protects the comet's surface from bombardment by deflecting the solar wind the same way a windshield deflects drops of rain.

Here's an illustration of how the comet's coma - in blue - deflects the solar wind - in purple:

Modelling and simulation: Technische Universität Braunschweig and Deutsches Zentrum für Luft- und Raumfahrt; Visualisation: Zuse-Institut Berlin

Although astronomers first discovered that comets have a vaporous atmosphere in the late '80s, there was limited technology with which to study these ethereal comas. Only in the last few years have we begun to understand them: In 2014, for example, astronomers using the world's most expensive ground-based telescope - the Atacama Large Millimeter/Submillimeter Array - detected the first traces of hydrogen and carbon compounds in two different comet comas. Neither were Comet 67P.

A revolutionary tool:

The best way to examine a coma, however, is to get up close and personal with it, which is exactly what the European Space Agency's Rosetta spacecraft is doing right now as it orbits around Comet 67P more than 300 million miles from Earth. And for the first time, scientists have discovered the deflective, protective behavior of comas in action using instruments on board Rosetta.

Advertisement

When Rosetta first began orbiting Comet 67P last August, it used its Plasma Consortium Ion and Electron Sensor to count the particles in the solar wind bombarding the comet and measure its flow. It's been continuously taking measurements ever since.

Below is an incredible simulation, based on those measurements and generated by a team of scientists led by Thomas Broiles of the Southwest Research Institute, of how the solar wind flows around the comet.

The extended blue you see at the end is the comet's ion tail forming - when the solar wind interacts with water vapor in the coma, it strips electrons from the water molecules, which produces water ions, all the while pushing them through space. This interaction produces a plasma tail, made up of ionized gas. Every comet is expected to have one.

Modelling and simulation: Technische Universität Braunschweig and Deutsches Zentrum für Luft- und Raumfahrt; Visualisation: Zuse-Institut Berlin

An unusual comet

European Space Agency

While comas shield comets, Comet 67P's coma was not especially strong a year ago when Rosetta began orbiting the comet and taking measurements. That means some of the high-energy particles in the solar wind were penetrating the coma and reaching the surface.

Advertisement

When that happened, the solar wind interacted with the comet, liberating some of the atoms making up its dirty, dusty surface.

Rosetta's Double Focusing Mass Spectrometer can spot and identify these liberated atoms. And a team of scientists led by Peter Wurz from the University of Bern, Switzerland, found traces of sodium, potassium, silicon, and calcium on the surface.

They also found that Comet 67P has more potassium but less calcium than other comets of its kind. This discovery compliments another momentous find announced earlier this week where a different team analyzed the comet's composition from data collected by the Philae probe sitting on its surface. The probe found multiple organic molecules, some of which had never been detected on a comet before.

Right now, Comet 67P is barreling through space toward the sun at 84,000 miles per hour, scheduled to make its closest approach on Aug. 13.

As it gets closer, the coma grows stronger because the sun's heat is sublimating increasingly more ice on the comet's surface.

Advertisement

Soon, the coma will be an impenetrable shield that no particles from the solar wind can penetrate, which will help protect the comet from complete annihilation as it slingshots around the sun, at a distance of about 111 million miles, in less than two weeks.

NOW WATCH: Scientists finally figured out how to land on a comet going 35,000 mph

Please enable Javascript to watch this video
You are subscribed to notifications!
Looks like you've blocked notifications!
Next Article