The H-1NF (or H-1 Australian Plasma Fusion Research Facility) was a research institute of the H-1 heliac, a large stellarator device located in the ANU Research School of Physics at Canberra, Australia.[1][2] It was established when the H-1 heliac was promoted to a national facility in 1996, adopting H-1NF as its facility name ("H-1" from the stellarator and "NF" for National Facility).[3] In 2022 the H-1 heliac was disassembled before being shipped to its new home in China.
The H-1 flexible Heliac is a three field-period helical axis stellarator. Optimisation of the H-1 power supplies for low current ripple allows precise control of the ratio of secondary (helical, vertical) coil to primary (poloidal, toroidal) coil currents, resulting in a finely tunable magnetic geometry. Slight variation in the current ratio between shots (plasma discharges) in a sequence corresponds to a high resolution parameter scan through magnetic configurations (i.e.: rotational transform profile, magnetic well). The programmable control system allows for repetition rates of around 30 shots per hour, limited by data acquisition time and magnet cooling time.
Stated objectivesedit
Provide a high-temperature plasma national facility of international standing on a scale appropriate to Australia's research budget.
Provide a focus for national and international collaborative research, make significant contributions to the global fusion research effort and increase the Australian presence in the field of plasma fusion power into the next century.
Gain a detailed understanding of the basic physics of hot plasma which is magnetically confined in the helical-axis stellarator configuration.
Develop advanced plasma measurement systems ("diagnostics"), integrating real-time processing and multi-dimensional visualization of data.
Referencesedit
^. ANU College of Science. Archived from the original on 2020-04-23. Retrieved 2020-06-20.
^"Fusion Power". Australian National University. 2013-01-04. Retrieved 2020-06-20.
^INIS Repository Search - Single Result. Japan Society of Plasma Science and Nuclear Fusion Research. 1997. ISBN978-4-9900586-1-6. Retrieved 2020-06-20. {{cite book}}: |website= ignored (help)
Image of H-1NF 2007-04-22 at the Wayback Machine(in Japanese)
January 01, 1970
this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, june, 2020, learn, when, re. This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources H 1NF news newspapers books scholar JSTOR June 2020 Learn how and when to remove this message The H 1NF or H 1 Australian Plasma Fusion Research Facility was a research institute of the H 1 heliac a large stellarator device located in the ANU Research School of Physics at Canberra Australia 1 2 It was established when the H 1 heliac was promoted to a national facility in 1996 adopting H 1NF as its facility name H 1 from the stellarator and NF for National Facility 3 In 2022 the H 1 heliac was disassembled before being shipped to its new home in China Contents 1 H 1 heliac stellarator 2 Stated objectives 3 References 4 External linksH 1 heliac stellarator editH 1 heliac nbsp Device typeStellaratorLocationCanberra AustraliaTechnical specificationsMajor radius1 0 m 3 ft 3 in Minor radius0 2 m 7 9 in Magnetic field0 5 T 5 000 G HistoryYear s of operation1992 2022 The H 1 flexible Heliac is a three field period helical axis stellarator Optimisation of the H 1 power supplies for low current ripple allows precise control of the ratio of secondary helical vertical coil to primary poloidal toroidal coil currents resulting in a finely tunable magnetic geometry Slight variation in the current ratio between shots plasma discharges in a sequence corresponds to a high resolution parameter scan through magnetic configurations i e rotational transform profile magnetic well The programmable control system allows for repetition rates of around 30 shots per hour limited by data acquisition time and magnet cooling time Stated objectives editProvide a high temperature plasma national facility of international standing on a scale appropriate to Australia s research budget Provide a focus for national and international collaborative research make significant contributions to the global fusion research effort and increase the Australian presence in the field of plasma fusion power into the next century Gain a detailed understanding of the basic physics of hot plasma which is magnetically confined in the helical axis stellarator configuration Develop advanced plasma measurement systems diagnostics integrating real time processing and multi dimensional visualization of data References edit Australian Plasma Fusion Research Facility ANU College of Science Archived from the original on 2020 04 23 Retrieved 2020 06 20 Fusion Power Australian National University 2013 01 04 Retrieved 2020 06 20 INIS Repository Search Single Result Japan Society of Plasma Science and Nuclear Fusion Research 1997 ISBN 978 4 9900586 1 6 Retrieved 2020 06 20 a href Template Cite book html title Template Cite book cite book a website ignored help External links editH 1NF Homepage H 1NF description and images Rockwell Automation Image of H 1NF Archived 2007 04 22 at the Wayback Machine in Japanese Retrieved from https en wikipedia org w index php title H 1NF amp oldid 1223538599, wikipedia, wiki, book, books, library,
