Where do heavy elements come from?

Where do heavy elements come from?

Remnants of Supernova Tycho courtesy of mpia.de

Stars are powered by nuclear fusion – any atom heavier than this is formed by this process. When a star starts running low on Hydrogen, it will begin 'burning' the Helium too, forming even heavier elements. Unlike Hydrogen being fused to Helium, this is a process of diminishing returns. Each new elemental fusion yields less energy than the previous. At a certain point, depending on the stars mass, this process grinds to a halt, and the star can go no further. If this star is small, like our sun, it will eventually burn out, as a red giant and eventually a white dwarf. When this occurs the star will retain the heavier elements it formed during its lifetime. However, if it is a bit bigger, though, its undergo core collapse when nuclear fusion suddenly becomes unable to sustain the core against its own gravity. The collapse may cause violent expulsion of the outer layers of the star resulting in a supernova - tremendous energy is suddenly released in the form of neutrinos and electromagnetic radiation. Such is the explosive energy unleashed during a Supernova event that even the poorest grade of fuel, the middle-weight elements like Iron, aren't safe from atomic infusion. Brief though the blast is, compared with the life of the star, a Supernova packs enough energy to force the creation of Uranium, and even more dense, and more unstable elements. The blast is also powerful enough to eject these ultra-dense atoms out into the surrounding cosmos.

Constituent elements of Supernova Tycho courtesy of sci.esa.int

Stars & Nuclear Fusion

Supernovae are a key source of elements heavier than oxygen. These elements are produced by nuclear fusion (for iron-56 and lighter elements), and by nucleosynthesis during the supernova explosion for elements heavier than iron. 

Nuclear fusion is the process by which two or more atomic nuclei join together, or "fuse", to form a single heavier nucleus. During this process, matter is not conserved because some of the mass of the fusing nuclei is converted to energy which is released. Fusion is the process that powers active stars. The fusion of two nuclei with lower masses than iron (which, along with nickel, has the largest binding energy per nucleon) generally releases energy, while the fusion of nuclei heavier than iron absorbs energy.

A substantial energy barrier of electrostatic forces must be overcome before fusion can occur. At large distances two naked nuclei repel one another because of the repulsive electrostatic force between their positively charged protons. If two nuclei can be brought close enough together, however, the electrostatic repulsion can be overcome by the strong nuclear force, which is stronger at close distances. This is one of the most important fusion process in nature. The net result is the fusion of four protons into one alpha particle, with the release of two positrons, two neutrinos (which changes two of the protons into neutrons), and energy, but several individual reactions are involved, depending on the mass of the star. For stars the size of the sun or smaller, the proton-proton chain dominates.

Unlike the proton–proton chain reaction, the CNO cycle is a catalytic cycle. Theoretical models show that the CNO cycle is the dominant source of energy in stars more massive than about 1.3 times the mass of the Sun. In the CNO cycle, four protons fuse, using carbon, nitrogen and o

Image of the Day - Curiosity

Today's Image of the Day for 13/8/12 - NASA's Curiosity

Image courtesy of  NASA

After a long absence the Image of the Day is finally back, and what better way to welcome it back than an Image taken by NASA's Curiosity. This Image was taken from the same spot in which Curiosity landed, due to the on going health checks that have not allowed the rover to move. The first stage in these health checks is to update the on board computers software, this software is better suited for the mars surface and will enable the use of the robotic arm and drill. These updates will take approximately 1 week to complete. In the mean time the NASA scientists will be closely analyzing the Images taken by the rover. The image below is the first 360 degree panorama sent from the Red Planet.

Image courtesy of  NASA

Image of the Day - CERN Still Looking

Today's Image of the Day for 8/10/11 - CERN Still Looking

CERN detector courtesy of zastavki

The long-sought after Higgs boson particle will be found in the next 12 months if it exists, said the leader of the CERN facility in Geneva. The three scientists, one from each of CERN, the U.S. Fermilab and Japan's KEK - also stated their scepticism of recent claims that particles had recently broken the speed of light in the Large Hadron Collider (LHC). 'I think by this time next year I will be able to bring you either the Higgs boson or the message that it doesn't exist,' said Rolf Heuer, director general of CERN, whose LHC is at the focus of the search. He was echoed by KEK's Atsuto Suzuki and Pier Oddone of Fermilab, which last weekend shut off - after 26 years - its Tevatron accelerator, which has also been seeking the Higgs in the debris of billions of particle collisions. Oddone said analysis of the data gathered in the Tevatron, which for nearly a decade led the search, would be under analysis for several more months but at best could only now reveal where the Higgs was not hiding. Existence of the particle - believed to have given shape to the universe after the Big Bang 13.7 billion years ago - was proposed some four decades ago. 'Last month Guido Tonelli, a spokesman for the Compact Muon Solenoid Detector, a huge particle detector at CERN, said that even if the LHC was able to rule out the existence of the Higgs boson, that would be a major achievement in itself. Another CERN spokesman said that the Higgs boson was not the only solution to the mystery of the universe.But even if the elusive particle is not found, the experiments, which use the 'ring' to smash streams of protons together at nearly the speed of light, creating billions of 'miniature Big Bangs', will still expand human knowledge - even if it is simply by exposing flaws in the Standard Model of physics, accepted since the Seventies as a system to 'explain' matter. Speaking earlier this year, Tonelli said, 'We've reached the edge of the unknown. It's all new physics from now.'

Image of the Day - Draconid Meteor Shower

Today's Image of the Day for 7/10/11 - Draconid meteor shower

Draconid meteor shower courtesy of dailymirror

The meteors become visible as the earth crosses the orbit of the 21P/Giacobini-Zinner comet. The comet's orbit path is filled with tiny particles - the size of a grain of sand. When our planet zips through this cosmic dust storm the particles disintegrate in our atmosphere and create streaks of light across the sky. However, because this year's schedule of meteor showers happens to coincide with the full moon cycle, they may be difficult to spot with the sky so brightly lit. Because the Draconids move relatively slowly in stellar terms - 12 miles per second - they're faint and the moonlight tends to wash them out. The meteor shower is named after the constellation from which they appear to emerge, which in this case is Draco, the dragon. The Draconids have previously put on some spectacular shows. In 1933 and 1946 observers reported an astounding rate of 20,000 shooting stars an hour, leading one Irish astronomer to describe the 1933 episode as being like a flurry of snowflakes. If this Draconid shower isn't visible, there won't be another chance to catch it until 2018. Instead you will have to satisfy yourself with the arrival of the Orionids on October 22 - remnants from Halley's Comet - which are expected to number a rather more sedate 20 meteors an hour. Then there are the Leonids in mid-November - with as many as 100 meteors an hour - but it may not be any easier to glimpse those to showers either.

'Next year will be better.'

Image of the Day - Apple II Motherboard

Today's Image of the Day for 6/10/11 - Apple 2 Motherboard

(Steve Jobs Tribute)

Apple 2 motherboard courtesy of willegal

The Apple II is an 8-bit home computer, one of the first highly successful mass-produced microcomputer products, designed primarily by Steve Wozniak, manufactured by Apple Computer (now Apple Inc.) and introduced in 1977. It is the first model in a series of computers which were produced until Apple IIe production ceased in November 1993. The first Apple II computers went on sale on June 5, 1977 with a MOS Technology 6502 microprocessor running at 1 MHz, 4 kB of RAM, an audio cassette interface for loading programs and storing data, and the Integer BASIC programming language built into the ROMs. To reflect the computer's colour graphics capability, the Apple logo on the casing was represented using rainbow stripes, which remained a part of Apple's corporate logo until early 1998. An external 5¼-inch floppy disk drive, the Disk II, attached via a controller card that plugged into one of the computer's expansion slots (usually slot 6), was used for data storage and retrieval to replace cassettes. The Disk II interface, created by Steve Wozniak and Steve Jobs, it was regarded as an engineering masterpiece for its economy of electronic components.

This IotD is a tribute to Steve Jobs.

He will be remembered forever.

A tribute to Steve Jobs

A tribute to Steve Jobs

Image from apple.com

October the 5th 2011 brought the sad news that Steve Jobs; co-founder of Apple Inc. had passed away. After a long battle with pancreatic cancer and an operation that would remove the tumour, the cancerous cells won and sadly ended the life of one of the greatest innovators to ever live. Among the millions of people world wide to honour Jobs' wonderful life; world leaders like Barack Obama and David Cameron, Bill gates and Google co-founder Larry Page would join the celebrations of what he has achieved.

Image courtesy Jonathon Mak

A visual tribute to Steve Jobs has re-imagined the classic Apple logo with Jobs’ silhouette as the bite in the Apple. The image’s caption simply reads, “Thanks, Steve.”

“Innovation distinguishes between a leader and a follower.”

A quote from Steve Jobs

Image of the Day - End of ROSAT

Today's Image of the Day for 5/10/11 - End of ROSAT

ROSAT all-sky survey sourtesy of xray.mpe.mpg.de

ROSAT (short for Röntgensatellit, in German X-rays are called Röntgenstrahlen, in honour of Wilhelm Röntgen) is a defunct German Aerospace centre-led satellite X-Ray telescope, with instruments built by Germany, the UK and the US. It was launched on 1 June 1990, on a Delta II rocket from Cape Canaveral, on what was initially designed as an 18 month mission, with provision for up to 5 years of operation. ROSAT actually operated for over 8 years, finally shutting down on 12 February 1999.
       ROSAT is expected to re-enter the Earth's atmosphere at some point between October and December. In February, it was reported that the 2,400 kg satellite was unlikely to burn up entirely while re-entering the earth atmosphere due to the large amount of ceramics and glass used in construction. Parts as heavy as 400 kg could impact the surface intact. If you thought that Nasa's odds of one in 3,200 that someone somewhere on the Earth would be struck by a piece of the falling UARS satellite were worrying, then the next major satellite decay poses even more of a risk. The German Aerospace Center puts the equivalent odds for Rosat, the Roentgen Satellite, at one in 2,000. In fact, your personal odds of being hit are more like 1 in 14 trillion, so it is probably safe to put away that tin hat. If you live north of the Wash, then you are out of the "danger zone" which extends to 53° N and S of the equator. Equipped with an 84cm mirror, it completed an X-ray survey of the sky, finding more than 150,000 objects.
         It followed up with targeted observations of interesting objects from galaxies, to neutron stars and even comets. It is about three weeks away from re-entry as it's orbit decays, though it could survive into November. Rosat is less than half as massive as UARS, but more than half of it is thought likely to survive re-entry. The expectation is that this will drop harmlessly into an ocean. The US tracking authorities took more than two days to confirm the details of UARS' plunge into the Pacific, so let us hope that they do better with ROSAT.