Hoffman's answers to Panel questions by Hill, David (LLNL)
June 20th file from Alan Hoffman with pre-DFW answers to FRC questions
- File: FRC answers-Hoffman-June20.pdf
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CT mission and goals by Guo, Houyang (University of Washington)
CT mission and goals suggested by TAP based on the CT community input
- File: CT_Mission_And_Goals.pdf
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spheromak presentation at DFW meeting by Jarboe, Tom (U. Washington)
Presentation to panel at DFW meeting: answering questions on the spheromak
- File: UPload Jarboe talk.pdf
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FRC July 1 TAP presentation by Hoffman, Alan (University of Washington)
Slide show presented to TAP 7/1/08
- File: FESAC [Compatibility Mode].pdf
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5 minute slot by Woodruff, Simon (Woodruff Scientific, LLC)
Highlighting some of the differences between Jarboe's answers to panel questions and those of Woodruff, Sovinec and McLean
- File: Woodruff-5-minutes.pdf
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Pulsed High Density FRC Fusion Presentation by Slough, John (University of Washington)
Viewgraphs presented to FESAC panel at DFW meeting
- File: Viewgraphs for FESAC panel on PHD.pdf
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updated FRC design aid by Cohen, Sam (PPPL)
updated FRC design aid
- File: FRC-Design-Aid-COHEN.pdf
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Slides from talk by Jarboe, Tom (University of Washington)
Slides from my talk July 1
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FRC designs by Cohen, Samuel (PPPL)
A diagram showing present and proposed FRCs in the r-B plane, with s and nu* indicated
- File: FRC_Design_Aid_Diagram.pdf
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Design aid for FRC by Cohen, Sam (PPPL)
Design aid for FRCs
- File: 5minuteFESAC Cohen.ppt
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Spheromak panel question answers by Woodruff, Simon (Woodruff Scientific, LLC)
Answers to panel questions from Woodruff, Sovinec and McLean
- File: FESAC-Q&A-SW-CS-HSM.pdf
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Answers to questions on spheromak CT by Jarboe, Thomas (University of Washington)
Answers to the question for the spheromak CT
- File: Spheromak questions with answers.pdf
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FRC Questions and Issues by Guo, Houyang (University of Washington)
Request for community input at DFW meeting
- File: FRC_Questions.doc
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Rotamak FRC by Majeski, Dick (PPPL)
A brief discussion of the potential importance of propagating waves effects in rotamaks
- File: Rotamaks and waves.pdf
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Spheromak questions and issues by Hooper, Bick (LLNL)
Request for community input for Dallas meeting
- File: Spheromak questions and issues.pdf
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SPIRIT Concept and CT Research on MRX by Yamada, Masaaki (PPPL, Princeton University)
Description of experimental CT research on MRX
- File: SPIRIT_2 pager_pdf.pdf
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Quasi-steady FRC Fusion Reactor by Slough, John (University of Washington)
A unique approach to achieving a burning plasma in ITER era that employs the "conventional" regime of a high density FRC where the FRC has already demonstrated the confinement scaling and stability required for fusion gain at confining fields of 15 T. To achieve the fusion regime, the FRC is repetively formed, kinetically heated, and compressed into a high field SC solenoid. This process can be accomplished with high efficiency providing an ideal volumetric neutron source for componant testing and tritium breeding.
- File: Quasisteady FRC Fusion Reactor.pdf
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Oblate CTs by Schaffer, Michel (GA)
Oblate FRCs formed by counter-helicity spheromak merging; high magnetic flux CTs
- File: Oblate CTs.pdf
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FRC 15 page community input-Hoffman by Hoffman, Alan (U. Washington)
15 page community input document on the FRC
- File: CT15pager-allW03-Hoffman.pdf
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FRC 15-pager, community input by Cohen, Samuel (PPPL)
This report is in response to Dave Hill's request for a 10-15 page document describing the status of FRC research and gaps in the present research programs.
- File: FRC_FESAC_15pagerCohen.pdf
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Oblate CTs by Schaffer, Michel (General Atomics)
Oblate FRCs formed by counter-helicity spheromak merging; high magnetic flux CTs
- File: Oblate CTs.doc
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FRC 15-pager by Hoffman, Alan (University of Washington)
Concept description, goals, issues, and gaps for the FRC
- File: CT15pager-allW03.doc
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Spheromak Community Input by McLean, Harry (Lawrence Livermore National Lab)
Spheromak Community 15 Pager Input
- File: spheromak_15-pager_v21_final.pdf
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FRC 2-pager by Cohen, Samuel (PPPL)
THis 2 page document describes what research gaps could be filled in a small FRC device, using RMF only for heating, stabilization and current drive.
- File: FESAC-2pager_Cohen-FRC.pdf
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