'Stellarator' is a SUCCESS: Strange twisted design that could finally make fusion power a reality is switched on for the first time taking us one step closer to physics' Holy Grail
- Wendelstein 7-X is an alternative to the donut-shaped Tokamak reactor
- It successfully produced a helium plasma at a lab in Germany yesterday
- It reached a temperature of 1 million°C and lasted for a tenth of a second
- Technology could lead to limitless supplies of clean and cheap energy
Scientists have successfully switched on the world's largest 'Stellarator' fusion reactor.
Dubbed Wendelstein 7-X (W7-X), the reactor is designed to contain super-hot plasma for more than 30 minutes at a time.
This week, the reactor produced a special super-hot gas for a tenth of a second.
Scientists hope that, if it can work for longer, it could eventually lead to limitless supplies of clean and cheap energy.
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Scientists have successfully switched on the world's largest 'Stellarator' fusion reactor. Dubbed Wendelstein 7-X (W7-X), the reactor is designed to contain super-hot plasma for more than 30 minutes at a time
Yesterday, the reactor produced a helium plasma which reached a temperature of one million°C.
'We're very satisfied', concludes Dr Hans-Stephan Bosch, whose division is responsible for the operation of the Wendelstein 7-X, at the end of the first day of experimentation.
'Everything went according to plan.'
The next task will be to extend the duration of the plasma discharges and to investigate the best method of producing and heating helium plasmas using microwaves.
Researchers claim its unusual design, which is housed in a huge lab in Greifswald, Germany, could finally help make fusion power a reality.
Containing super-hot plasma for long periods has been the Holy Grail for reactor designs, and could help scientists provide an inexhaustible source of power.
Fusion reactors, such as the W7-X, work by using two kinds of hydrogen atoms — deuterium and tritium — and injecting that gas into a containment vessel.
Scientist then add energy that removes the electrons from their host atoms, forming what is described as an ion plasma, which releases huge amounts of energy.
Strong magnetic fields are used to keep the plasma away from the walls; these are produced by superconducting coils surrounding the vessel, and by an electrical current driven through the plasma.
The most common design for a reactor is something known as a Tokamak, which is a hollow metal chamber in the shape of a donut.
The fuel is heated to temperatures in excess of 150 million°C, forming a hot plasma.
While the Tokamak design is ideal for containing this plasma, it poses some safety risks, for instance, if the current fails or there's a magnetic disruption.
Pictured The first plasma in Wendelstein 7-X. It consisted of helium and reached a temperature of about one million degrees Celsius
Researchers claim the unusual design, which is housed in a huge lab in Greifswald, Germany, could finally help make fusion power a reality
Pictured is the initial test of the system. The image shows how the fluorescent rod makes closed, nested magnetic surfaces visible
In stellarators, plasma is contained by external magnetic coils which create twisted field lines around the inside of the vacuum chamber
These disruptions can unleash magnetic forces powerful enough to damage the reactor.
Scientists at the Max Planck Institute say the W7-X is a more practical option and can overcome the safety problems of a Tokamak reactor, according to an in-depth report in Science.
'Tokamak people are waiting to see what happens. There's an excitement around the world about W7-X,' engineer David Anderson of the University of Wisconsin, Madison told Science.
In tokamaks, two sets of magnets are used to contain the plasma; an external set surrounding the vacuum chamber and an internal transformer that drives current in the plasma.
This causes the magnetic field to be stronger in the centre than it is on the outer side.
As a result, plasma contained in a tokamak can moves to the outer walls where it then collapses.
In stellarators, plasma is contained by external magnetic coils which create twisted field lines around the inside of the vacuum chamber, according to Science.
As such, it overcomes can continuously hold the plasma away from the walls of the device.
Its key component is a ring 50 superconducting magnetic coils approximately 3.5 metres in height. In total the device is 16-meters-wide.
The stellarator design was first thought up in 1951 by Lyman Spitzer working at Princeton University.
But at the time, it was thought to be too complex for the constraints of materials available in the middle of the 20th Century.
Now using supercomputers and new materials, researchers have finally made Spitzer's vision a reality.
The photograph on the left combines the tracer of an electron beam on its multiple circulation along a field line through the machine. On the right is one of the interior components of the W7-X being made
While the Tokamak design is ideal for containing this plasma, it poses some safety risks, for instance, if the current fails or there's a magnetic disruption
'We all know the trend of global development, the hunger for energy of emerging economies and emerging countries,' said Professor Johanna Wanka, Federal Minister for Education and Research.
'So when we talk about energy, we need research that keeps all options open. And one of these options is nuclear fusion.
'Wendelstein 7-X is an important step forward allowing us to better evaluate the 'fusion option.'
The machine took 1.1 million hours to assemble, using what has been described as one of the world's most complex engineering models.
Testing of the magnetic field in the Wendelstein 7-X fusion device was completed in June – much sooner than expected.
The test revealed that the magnetic cage for the fusion plasma, which has a temperature of many million degrees, was working as scientists predicted.
If the machine works for longer periods of time, scientists believe it could herald a change in the direction for fusion power.
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