How icy comets can pass through the Sun?

Scientists have detected thousands of comets plunging into our solar system’s star since the 1980s.

With the introduction of technology such as NASA’s sun-watching Solar Dynamics Observatory (SDO) satellite in 2010 that these close encounters – like Comet Lovejoy’s graze with the Sun last year – have been turned into one of the most exciting sights in astronomy.

Now a team of scientists led by Professor John Brown, Astronomer Royal for Scotland, have worked out to predict which comets will make it through this fiery journey – and which are likely to explode just above the surface.

Comets are giant dusty snowballs believed to date from the epoch of the formation of the Sun and planets, so carry important information about the early history and composition of the Solar system.

The comets we see spend most of their time very far from the Sun, orbiting in the so-called Oort Cloud, before being disrupted into orbits that carry them towards our nearest star over tens of thousands of years.

When comets reach the inner Solar System, their dusty ices melt and vaporize to form huge tails blown back by the solar wind and by sunlight.

The largest, like the famous Comet Hale Bopp seen in the late 1990s, have nuclei tens of kilometres across and masses of 10 million million tons.

Objects this large only lose a tiny fraction of their material on each passage around the Sun, so are able to survive thousands of journeys through the Solar System.

In contrast, the smallest objects may only be 10 metres across with a mass of 1,000 tons.

If these small comets make a close approach to the Sun, they are vaporized by sunlight and by the friction of the atmospheric gas.

Comet Lovejoy emerging from the clutches of the Sun spotted by NASA Solar Dynamics Observatory

In the culmination of work carried out over the last few years, Prof. John Brown and his colleagues are now able to predict how comets lose their mass and are destroyed in the solar atmosphere, their behavior depending on whether or not their orbital path reaches into the “lower atmosphere” 4350 miles (roughly 1% of the solar radius) from the top of the brightest visible solar layer, the photosphere.

The team worked out the different ways comets give up their mass, momentum and energy to the Sun’s atmosphere according to their height. Above 4,350 miles the cometary nuclei are slowly vaporized by sunlight and the gases streaming off into the coma and tail lose energy and momentum by atmospheric drag.

In the low solar atmosphere material is stripped away not by sunlight but by the drag of the solar gas surrounding the comet and by exploding under the ‘ram pressure’ force of the atmosphere as the comet runs into denser layers.

The group found that sunskimmer comets (those with their closest approach more than 4350 miles from the Sun) are destroyed in a slow “fizzle” lasting hundreds to thousands of seconds, depending on their mass.

During their demise they should emit weak but detectable extreme ultraviolet (XUV) radiation.

In contrast, the “sunplungers” that approach the Sun more closely will be destroyed in a few seconds as they crash into the dense layers of the lower solar atmosphere.

The resulting explosions produce effects similar to those of solar flares, such as sunquakes on the Sun’s surface.

Finally, if the most massive comets were to collide with the Sun they would produce dramatic explosions just above the photosphere itself.

In July and December last year the NASA Solar Dynamics Observatory satellite made the first direct observations of comets making close approaches to the Sun.

The first comet, C/2011 N3 (SOHO) was completely destroyed after passing 62,000 miles above the photosphere whilst the second and larger comet, C/2011 W3 (Lovejoy) survived a close approach to a similar distance (87 000 miles) although it lost a significant fraction of its mass in the process.

Both events were in line with the predictions of Professor Brown and his collaborators. They emphasize that, contrary to some news releases, the death or attrition of such comets has nothing to do with the high temperature (two million degrees Celsius) of the outer solar atmosphere since, though hot, it is so tenuous that it contains little heat.

Prof. John Brown comments: “In modeling how icy comets behave in this extreme environment, we really are starting to understand what happens to these <<supersonic snowballs in hell>> when they make a close approach to the Sun.

“The two sun skimmers seen last year have already given us a new insight into the Sun’s atmosphere and it’s only a matter of time before we see the flare from a sun plunger – with a low enough orbit to reach the lower atmosphere of the Sun. When that happens we will be able to analyze the light from the resulting cometary flare and find out even more about the composition of the interiors of comets.”

Prof. John Brown will present this new work in a paper at the National Astronomy Meeting in Manchester on Friday 30 March.

 

Diane A. Wade

Diane is a perfectionist. She enjoys searching the internet for the hottest events from around the world and writing an article about it. The details matter to her, so she makes sure the information is easy to read and understand. She likes traveling and history, especially ancient history. Being a very sociable person she has a blast having barbeque with family and friends.

Recent Posts

House Panel Votes to Release Matt Gaetz Ethics Report

The US House Ethics Committee has voted to release its report on former Republican Representative…

4 days ago

ABC News to Pay $15M to Settle Trump Defamation Suit

ABC News has agreed to pay $15 million to President-elect Donald Trump to settle a…

1 week ago

South Korea’s Parliament Impeaches President Yoon Suk Yeol Following Martial Law Scandal

South Korea’s parliament has voted to impeach President Yoon Suk Yeol over his failed attempt…

1 week ago

Syria: Israeli War Planes Carry Out More Than 100 Air Strikes

Israeli war planes have carried out more than 100 air strikes in Syria on December…

2 weeks ago

Donald Trump Threatens 100% Tariff on BRICS Nations

President-elect Donald Trump has threatened to impose 100% tariffs on the BRICS countries if they…

3 weeks ago

Syria Coup: Rebels Take Control of Aleppo

Syrian troops have withdrawn from the city of Aleppo following an offensive by rebels opposed…

3 weeks ago