Jens Schwarz , Brian Hutsel , Thomas Awe , Bruno Bauer , Jacob Banasek , Eric Breden , Joe Chen , Michael Cuneo , Katherine Chandler , Karen DeZetter , Mark Gilmore , Matthew Gomez , Hannah Hasson , Maren Hatch , Nathan Hines , Trevor Hutchinson , Deanna Jaramillo , Christine Kalogeras Loney , Ian Kern , Derek Lamppa , Kevin Yates
{"title":"米克诺斯岛促进科学和创新的脉冲功率驱动器","authors":"Jens Schwarz , Brian Hutsel , Thomas Awe , Bruno Bauer , Jacob Banasek , Eric Breden , Joe Chen , Michael Cuneo , Katherine Chandler , Karen DeZetter , Mark Gilmore , Matthew Gomez , Hannah Hasson , Maren Hatch , Nathan Hines , Trevor Hutchinson , Deanna Jaramillo , Christine Kalogeras Loney , Ian Kern , Derek Lamppa , Kevin Yates","doi":"10.1016/j.hedp.2024.101144","DOIUrl":null,"url":null,"abstract":"<div><p>Sandia National Laboratories has been operating the Mykonos linear transformer driver (LTD) in a five-cavity configuration since 2014. The machine operates at 1<!--> <!-->MA output current, 500<!--> <!-->kV output voltage, with a 10–90% current rise time of 85<!--> <!-->ns, which enables small scale physics and engineering pulsed power experiments. Mykonos provides hands-on pulsed power experimental training for students and staff alongside senior Sandia scientists in an environment that is more accessible than the Z Facility. Over the years, we have fielded and accumulated a wide variety of optical, x-ray and electrical diagnostics and we are preparing to open this facility to outside users. Here, we are presenting the pulsed power and diagnostic capability of Mykonos as well as some recent experiments that have been performed on the facility. The goal of this publication is to attract researchers across the pulsed power and high energy density (HED) community to collaborate with Sandia on exciting, innovative science and to train the next generation of researchers for the National Nuclear Security Agency (NNSA) and the nation. As such, we have established a Mykonos Academic Access Program (MAAP) as part of ZNetUS to enable academic utilization of the Mykonos Pulsed Power Facility.</p></div>","PeriodicalId":49267,"journal":{"name":"High Energy Density Physics","volume":"53 ","pages":"Article 101144"},"PeriodicalIF":1.6000,"publicationDate":"2024-08-24","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.sciencedirect.com/science/article/pii/S1574181824000697/pdfft?md5=45d54956ff92e35e2faebd1e3eec6f99&pid=1-s2.0-S1574181824000697-main.pdf","citationCount":"0","resultStr":"{\"title\":\"Mykonos: A pulsed power driver for science and innovation\",\"authors\":\"Jens Schwarz , Brian Hutsel , Thomas Awe , Bruno Bauer , Jacob Banasek , Eric Breden , Joe Chen , Michael Cuneo , Katherine Chandler , Karen DeZetter , Mark Gilmore , Matthew Gomez , Hannah Hasson , Maren Hatch , Nathan Hines , Trevor Hutchinson , Deanna Jaramillo , Christine Kalogeras Loney , Ian Kern , Derek Lamppa , Kevin Yates\",\"doi\":\"10.1016/j.hedp.2024.101144\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>Sandia National Laboratories has been operating the Mykonos linear transformer driver (LTD) in a five-cavity configuration since 2014. The machine operates at 1<!--> <!-->MA output current, 500<!--> <!-->kV output voltage, with a 10–90% current rise time of 85<!--> <!-->ns, which enables small scale physics and engineering pulsed power experiments. Mykonos provides hands-on pulsed power experimental training for students and staff alongside senior Sandia scientists in an environment that is more accessible than the Z Facility. Over the years, we have fielded and accumulated a wide variety of optical, x-ray and electrical diagnostics and we are preparing to open this facility to outside users. Here, we are presenting the pulsed power and diagnostic capability of Mykonos as well as some recent experiments that have been performed on the facility. The goal of this publication is to attract researchers across the pulsed power and high energy density (HED) community to collaborate with Sandia on exciting, innovative science and to train the next generation of researchers for the National Nuclear Security Agency (NNSA) and the nation. 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Mykonos: A pulsed power driver for science and innovation
Sandia National Laboratories has been operating the Mykonos linear transformer driver (LTD) in a five-cavity configuration since 2014. The machine operates at 1 MA output current, 500 kV output voltage, with a 10–90% current rise time of 85 ns, which enables small scale physics and engineering pulsed power experiments. Mykonos provides hands-on pulsed power experimental training for students and staff alongside senior Sandia scientists in an environment that is more accessible than the Z Facility. Over the years, we have fielded and accumulated a wide variety of optical, x-ray and electrical diagnostics and we are preparing to open this facility to outside users. Here, we are presenting the pulsed power and diagnostic capability of Mykonos as well as some recent experiments that have been performed on the facility. The goal of this publication is to attract researchers across the pulsed power and high energy density (HED) community to collaborate with Sandia on exciting, innovative science and to train the next generation of researchers for the National Nuclear Security Agency (NNSA) and the nation. As such, we have established a Mykonos Academic Access Program (MAAP) as part of ZNetUS to enable academic utilization of the Mykonos Pulsed Power Facility.
期刊介绍:
High Energy Density Physics is an international journal covering original experimental and related theoretical work studying the physics of matter and radiation under extreme conditions. ''High energy density'' is understood to be an energy density exceeding about 1011 J/m3. The editors and the publisher are committed to provide this fast-growing community with a dedicated high quality channel to distribute their original findings.
Papers suitable for publication in this journal cover topics in both the warm and hot dense matter regimes, such as laboratory studies relevant to non-LTE kinetics at extreme conditions, planetary interiors, astrophysical phenomena, inertial fusion and includes studies of, for example, material properties and both stable and unstable hydrodynamics. Developments in associated theoretical areas, for example the modelling of strongly coupled, partially degenerate and relativistic plasmas, are also covered.
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