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| The '''Uni'''versal '''L'''inear '''Ac'''celerator is based at the Heavy Ion Research Centre (GSI) near ], ]. Its use has produced, in the past 20 years, elements ] to ] and the creation of element ] is expected very soon. It is a ] type ] that can accelerate any ], incluing nuclei of heavy atoms. This allows it to generate superheavy ]. | The '''Uni'''versal '''L'''inear '''Ac'''celerator is based at the Heavy Ion Research Centre (GSI) near ], ]. Its use has produced, in the past 20 years, elements ] to ] and the creation of element ] is expected very soon. It is a ] type ] that can accelerate any ], incluing nuclei of heavy atoms. This allows it to generate superheavy ]. | ||
| However, there has been some controversy due of the lack of real practical uses for these new synthesised elements, mainly due to their short lifespans of up to 30 seconds. However, it |
However, there has been some controversy due of the lack of real practical uses for these new synthesised elements, mainly due to their short lifespans of up to 30 seconds. However, it is possible that in the future more stable isotopes of these elements will be found, and these could have practical applications. | ||
| {{physics-stub}} | {{physics-stub}} | ||
Revision as of 23:47, 10 December 2005
The Universal Linear Accelerator is based at the Heavy Ion Research Centre (GSI) near Darmstadt, Germany. Its use has produced, in the past 20 years, elements 107 to 112 and the creation of element 113 is expected very soon. It is a cyclotron type particle accelerator that can accelerate any nuclei, incluing nuclei of heavy atoms. This allows it to generate superheavy transactinides.
However, there has been some controversy due of the lack of real practical uses for these new synthesised elements, mainly due to their short lifespans of up to 30 seconds. However, it is possible that in the future more stable isotopes of these elements will be found, and these could have practical applications.
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