Publications

My publications are listed below.

Books

  1. Scopatz, Anthony, and Kathryn D. Huff. 2015. Effective Computation in Physics. 1St edition. O’Reilly Media.

    Effective Computation in Physics is a handy guide to the types of problems you run into with computational physics—such as version control, bash scripts, object orientation, large databases, and parallel machines. The authors provide detailed scientific computing motivations, clear and concise tutorials, and references to further information about each of the topics presented.This book fills the existing training gap for students and scientists who conduct physics in a world where simulations have replaced desktop experiments and sophisticated data traversing algorithms have replaced pen and paper analysis.Provides a central source that ties various pieces of computational physics togetherContains coverage of the Python programming language aimed toward physicistsHelps you properly analyze and compellingly visualize your dataIncludes chapters on hot topics like NumPy and HDF5

    @book{scopatz_effective_2015,
      edition = {1st edition},
      title = {Effective {Computation} in {Physics}},
      isbn = {978-1-4919-0153-3},
      language = {English},
      publisher = {O'Reilly Media},
      author = {Scopatz, Anthony and Huff, Kathryn D.},
      month = may,
      year = {2015}
    }
    

In Press / Published

  1. Andreades, Charalampos, Anselmo T. Cisneros, Jae Keun Choi, Alexandre YK Chong, Massimiliano Fratoni, Sea Hong, Lakshana R. Huddar, et al. 2016. “Design Summary of the Mark-I Pebble-Bed, Fluoride Salt–Cooled, High-Temperature Reactor Commercial Power Plant.” Nuclear Technology 195 (3): 222–38. https://doi.org/dx.doi.org/10.13182/NT16-2.

    The University of California, Berkeley (UCB), has developed a preconceptual design for a commercial pebble-bed (PB), fluoride salt–cooled, high-temperature reactor (FHR) (PB-FHR). The baseline design for this Mark-I PB-FHR (Mk1) plant is a 236-MW(thermal) reactor. The Mk1 uses a fluoride salt coolant with solid, coated-particle pebble fuel. The Mk1 design differs from earlier FHR designs because it uses a nuclear air-Brayton combined cycle designed to produce 100 MW(electric) of base-load electricity using a modified General Electric 7FB gas turbine. For peak electricity generation, the Mk1 has the ability to boost power output up to 242 MW(electric) using natural gas co-firing. The Mk1 uses direct heating of the power conversion fluid (air) with the primary coolant salt rather than using an intermediate coolant loop. By combining results from computational neutronics, thermal hydraulics, and pebble dynamics, UCB has developed a detailed design of the annular core and other key functional features. Both an active normal shutdown cooling system and a passive, natural-circulation-driven emergency decay heat removal system are included. Computational models of the FHR-validated using experimental data from the literature and from scaled thermal-hydraulic facilities-have led to a set of design criteria and system requirements for the Mk1 to operate safely and reliably. Three-dimensional, computer-aided-design models derived from the Mk1 design criteria are presented.

    @article{andreades_design_2016-1,
      title = {Design {Summary} of the {Mark}-{I} {Pebble}-{Bed}, {Fluoride} {Salt}–{Cooled}, {High}-{Temperature} {Reactor} {Commercial} {Power} {Plant}},
      volume = {195},
      url = {http://www.ans.org/pubs/journals/nt/a_38935},
      doi = {dx.doi.org/10.13182/NT16-2},
      number = {3},
      urldate = {2016-09-09},
      journal = {Nuclear Technology},
      author = {Andreades, Charalampos and Cisneros, Anselmo T. and Choi, Jae Keun and Chong, Alexandre YK and Fratoni, Massimiliano and Hong, Sea and Huddar, Lakshana R. and Huff, Kathryn D. and Kendrick, James and Krumwiede, David L. and Laufer, Michael and Munk, Madicken and Scarlat, Raluca O. and Wang, Xin and Zwiebaum, Nicolas and Greenspan, Ehud and Peterson, Per},
      month = sep,
      year = {2016},
      pages = {222--238},
      file = {Snapshot:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/K9KI6TNS/a_38935.html:text/html;Snapshot:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/CCJP84S4/a_38935.html:text/html}
    }
    
  2. Huff, Kathryn D., Matthew J. Gidden, Robert W. Carlsen, Robert R. Flanagan, Meghan B. McGarry, Arrielle C. Opotowsky, Erich A. Schneider, Anthony M. Scopatz, and Paul P.H. Wilson. 2016. “Fundamental Concepts in the Cyclus Nuclear Fuel Cycle Simulation Framework.” Advances in Engineering Software 94 (April): 46–59. https://doi.org/10.1016/j.advengsoft.2016.01.014.

    As nuclear power expands, technical, economic, political, and environmental analyses of nuclear fuel cycles by simulators increase in importance. To date, however, current tools are often fleet-based rather than discrete and restrictively licensed rather than open source. Each of these choices presents a challenge to modeling fidelity, generality, efficiency, robustness, and scientific transparency. The Cyclus nuclear fuel cycle simulator framework and its modeling ecosystem incorporate modern insights from simulation science and software architecture to solve these problems so that challenges in nuclear fuel cycle analysis can be better addressed. A summary of the Cyclus fuel cycle simulator framework and its modeling ecosystem are presented. Additionally, the implementation of each is discussed in the context of motivating challenges in nuclear fuel cycle simulation. Finally, the current capabilities of Cyclus are demonstrated for both open and closed fuel cycles.

    @article{huff_fundamental_2016,
      title = {Fundamental concepts in the {Cyclus} nuclear fuel cycle simulation framework},
      volume = {94},
      issn = {0965-9978},
      url = {http://www.sciencedirect.com/science/article/pii/S0965997816300229},
      doi = {10.1016/j.advengsoft.2016.01.014},
      journal = {Advances in Engineering Software},
      author = {Huff, Kathryn D. and Gidden, Matthew J. and Carlsen, Robert W. and Flanagan, Robert R. and McGarry, Meghan B. and Opotowsky, Arrielle C. and Schneider, Erich A. and Scopatz, Anthony M. and Wilson, Paul P.H.},
      month = apr,
      year = {2016},
      note = {arXiv: 1509.03604},
      keywords = {agent based modeling, Computer Science - Computational Engineering, Finance, and Science, Computer Science - Mathematical Software, Computer Science - Multiagent Systems, Computer Science - Software Engineering, D.2.4, D.2.13, I.6.7, I.6.8, Nuclear Engineering, Nuclear fuel cycle, Object orientation, Simulation, Systems analysis},
      pages = {46--59},
      file = {arXiv\:1509.03604 PDF:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/2BIE2QSA/Huff et al. - 2015 - Fundamental Concepts in the Cyclus Fuel Cycle Simu.pdf:application/pdf;arXiv\:1509.03604 PDF:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/EUDV8UUG/Huff et al. - 2015 - Fundamental Concepts in the Cyclus Fuel Cycle Simu.pdf:application/pdf;arXiv.org Snapshot:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/E56C2NPF/1509.html:text/html;arXiv.org Snapshot:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/WKZ5UEN7/1509.html:text/html;fundamentals.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/AHWXR7G7/fundamentals.pdf:application/pdf;fundamentals.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/GBHNSEAF/fundamentals.pdf:application/pdf;ScienceDirect Snapshot:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/EUFQCWSZ/S0965997816300229.html:text/html}
    }
    
  3. Andreades, Charalampos, Anselmo T. Cisneros, Jae Keun Choi, and Alexandre Y. K. Chong. 2016. “Design Summary of the Mark-I Pebble-Bed, Fluoride Salt–Cooled, High-Temperature Reactor Commercial Power Plant.” Nuclear Technology 195 (3). https://doi.org/10.13182/NT16-2.
    @article{andreades_design_2016,
      title = {Design {Summary} of the {Mark}-{I} {Pebble}-{Bed}, {Fluoride} {Salt}–{Cooled}, {High}-{Temperature} {Reactor} {Commercial} {Power} {Plant}},
      volume = {195},
      issn = {00295450},
      url = {http://www.ans.org/pubs/journals/nt/a_38935},
      doi = {10.13182/NT16-2},
      number = {3},
      urldate = {2016-09-03},
      journal = {Nuclear Technology},
      author = {Andreades, Charalampos and Cisneros, Anselmo T. and Choi, Jae Keun and Chong, Alexandre Y. K.},
      month = sep,
      year = {2016}
    }
    
  4. Huff, Kathryn D., Matthew J. Gidden, Robert W. Carlsen, Robert R. Flanagan, Meghan B. McGarry, Arrielle C. Opotowsky, Erich A. Schneider, Anthony M. Scopatz, and Paul P. H. Wilson. 2016. “Fundamental Concepts in the Cyclus Nuclear Fuel Cycle Simulation Framework.” Advances in Engineering Software 94 (April): 46–59. https://doi.org/10.1016/j.advengsoft.2016.01.014.

    As nuclear power expands, technical, economic, political, and environmental analyses of nuclear fuel cycles by simulators increase in importance. To date, however, current tools are often fleet-based rather than discrete and restrictively licensed rather than open source. Each of these choices presents a challenge to modeling fidelity, generality, efficiency, robustness, and scientific transparency. The Cyclus nuclear fuel cycle simulator framework and its modeling ecosystem incorporate modern insights from simulation science and software architecture to solve these problems so that challenges in nuclear fuel cycle analysis can be better addressed. A summary of the Cyclus fuel cycle simulator framework and its modeling ecosystem are presented. Additionally, the implementation of each is discussed in the context of motivating challenges in nuclear fuel cycle simulation. Finally, the current capabilities of Cyclus are demonstrated for both open and closed fuel cycles.

    @article{huff_fundamental_2016-1,
      title = {Fundamental concepts in the {Cyclus} nuclear fuel cycle simulation framework},
      volume = {94},
      issn = {0965-9978},
      url = {http://www.sciencedirect.com/science/article/pii/S0965997816300229},
      doi = {10.1016/j.advengsoft.2016.01.014},
      urldate = {2016-02-12},
      journal = {Advances in Engineering Software},
      author = {Huff, Kathryn D. and Gidden, Matthew J. and Carlsen, Robert W. and Flanagan, Robert R. and McGarry, Meghan B. and Opotowsky, Arrielle C. and Schneider, Erich A. and Scopatz, Anthony M. and Wilson, Paul P. H.},
      month = apr,
      year = {2016},
      keywords = {agent based modeling, Nuclear Engineering, Nuclear fuel cycle, Object orientation, Simulation, Systems analysis},
      pages = {46--59},
      file = {ScienceDirect Snapshot:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/UW6CUBRB/login.html:text/html}
    }
    
  5. Carlsen, Robert W., Matthew Gidden, Kathryn Huff, Arrielle C. Opotowsky, Olzhas Rakhimov, Anthony M. Scopatz, Zach Welch, and Paul Wilson. 2014. “Cyclus v1.0.0.” Figshare, June. https://doi.org/http://dx.doi.org/10.6084/m9.figshare.1041745.

    Cyclus is the next-generation agent-based nuclear fuel cycle simulator, providing flexibility to users and developers through adynamic resource exchange solver and plug-in, user-developed agent framework. The goal of Cyclus is to enable a broad spectrum of fuel cycle simulation while providing a low barrier to entry for new users and agent developers. Cyclus engages with potential module developers and encourages them to join a vibrant community in anexpanding ecosystem. Users and developers are always welcome and encouraged to use or contribute to the Cyclus project.

    @article{carlsen_cyclus_2014,
      title = {Cyclus v1.0.0},
      url = {http://figshare.com/articles/Cyclus_v1_0_0/1041745},
      doi = {http://dx.doi.org/10.6084/m9.figshare.1041745},
      urldate = {2014-06-24},
      journal = {Figshare},
      author = {Carlsen, Robert W. and Gidden, Matthew and Huff, Kathryn and Opotowsky, Arrielle C. and Rakhimov, Olzhas and Scopatz, Anthony M. and Welch, Zach and Wilson, Paul},
      month = jun,
      year = {2014},
      note = {http://dx.doi.org/10.6084/m9.figshare.1041745},
      keywords = {agent-based simulation, agent-based simulation, Nuclear Fuel Cycle, Nuclear fuel cycle},
      file = {cyclus_1.0.0:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/9US2IQKN/Carlsen et al. - 2014 - Cyclus v1.0.0.zip:application/zip;cyclus_1.0.0:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/FXKAD4KH/Carlsen et al. - 2014 - Cyclus v1.0.0.zip:application/zip;Figshare Download:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/97GKDFER/Carlsen et al. - 2014 - Cyclus v1.0.0.zip:application/zip;Figshare Download:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/NSD4SQRC/Carlsen et al. - 2014 - Cyclus v1.0.0.zip:application/zip;Figshare Snapshot:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/6D3KFGRW/1041745.html:text/html;Figshare Snapshot:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/UA8EFFKZ/1041745.html:text/html;Full Text (HTML):/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/GVS3BJ43/1041745.html:text/html;Full Text (HTML):/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/I4RBFJK3/1041745.html:text/html}
    }
    
  6. Tippmann, Sylvia. 2014. “My Digital Toolbox: Nuclear Engineer Katy Huff on Version-Control Systems.” Nature, September. https://doi.org/10.1038/nature.2014.16014.
    @article{tippmann_my_2014,
      title = {My digital toolbox: {Nuclear} engineer {Katy} {Huff} on version-control systems},
      issn = {1476-4687},
      shorttitle = {My digital toolbox},
      url = {http://www.nature.com/doifinder/10.1038/nature.2014.16014},
      doi = {10.1038/nature.2014.16014},
      urldate = {2016-09-12},
      journal = {Nature},
      author = {Tippmann, Sylvia},
      month = sep,
      year = {2014}
    }
    
  7. Wilson, Greg, D. A. Aruliah, C. Titus Brown, Neil P. Chue Hong, Matt Davis, Richard T. Guy, Steven H. D. Haddock, et al. 2014. “Best Practices for Scientific Computing.” PLoS Biol 12 (1): e1001745. https://doi.org/10.1371/journal.pbio.1001745.

    We describe a set of best practices for scientific software development, based on research and experience, that will improve scientists’ productivity and the reliability of their software.

    @article{wilson_best_2014,
      title = {Best {Practices} for {Scientific} {Computing}},
      volume = {12},
      url = {http://dx.doi.org/10.1371/journal.pbio.1001745},
      doi = {10.1371/journal.pbio.1001745},
      number = {1},
      urldate = {2014-09-08},
      journal = {PLoS Biol},
      author = {Wilson, Greg and Aruliah, D. A. and Brown, C. Titus and Chue Hong, Neil P. and Davis, Matt and Guy, Richard T. and Haddock, Steven H. D. and Huff, Kathryn D. and Mitchell, Ian M. and Plumbley, Mark D. and Waugh, Ben and White, Ethan P. and Wilson, Paul},
      month = jan,
      year = {2014},
      keywords = {Computer Science - Mathematical Software, Computer Science - Mathematical Software, Computer Science - Software Engineering, Computer Science - Software Engineering},
      pages = {e1001745},
      file = {1210.0530 PDF:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/EJBDTW6P/Wilson et al. - 2012 - Best Practices for Scientific Computing.pdf:application/pdf;1210.0530 PDF:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/S9U27WVT/Wilson et al. - 2012 - Best Practices for Scientific Computing.pdf:application/pdf;arXiv.org Snapshot:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/KNG6XAX4/Wilson et al. - 2012 - Best Practices for Scientific Computing.html:text/html;arXiv.org Snapshot:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/KTUJ3VUA/Wilson et al. - 2012 - Best Practices for Scientific Computing.html:text/html;PLoS Full Text PDF:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/AJN4DJTR/Wilson et al. - 2014 - Best Practices for Scientific Computing.pdf:application/pdf;PLoS Full Text PDF:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/FT24QEM9/Wilson et al. - 2014 - Best Practices for Scientific Computing.pdf:application/pdf;PLoS Full Text PDF:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/FTX4SKZA/Wilson et al. - 2014 - Best Practices for Scientific Computing.pdf:application/pdf;PLoS Full Text PDF:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/HZNQ6I7C/Wilson et al. - 2014 - Best Practices for Scientific Computing.pdf:application/pdf;PLoS Snapshot:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/76PT3DFK/Wilson et al. - 2014 - Best Practices for Scientific Computing.html:text/html;PLoS Snapshot:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/MCAJC4A4/infodoi10.1371journal.pbio.html:text/html;PLoS Snapshot:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/QJRK478H/Wilson et al. - 2014 - Best Practices for Scientific Computing.html:text/html;PLoS Snapshot:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/XEXXUT4Z/infodoi10.1371journal.pbio.html:text/html}
    }
    
  8. Carlsen, Robert W., Matthew Gidden, Kathryn Huff, Arrielle C. Opotowsky, Olzhas Rakhimov, Anthony M. Scopatz, and Paul Wilson. 2014. “Cycamore v1.0.0.” Figshare, June. https://doi.org/http://figshare.com/articles/Cycamore_v1_0_0/1041829.

    Additional module for Cyclus, the nuclear fuel cycle simulator developed at the University of Wisconsin - Madison, supporting the modeling of innovative fuel cycles.

    @article{carlsen_cycamore_2014,
      title = {Cycamore v1.0.0},
      url = {http://figshare.com/articles/Cycamore_v1_0_0/1041829},
      doi = {http://figshare.com/articles/Cycamore_v1_0_0/1041829},
      urldate = {2014-06-03},
      journal = {Figshare},
      author = {Carlsen, Robert W. and Gidden, Matthew and Huff, Kathryn and Opotowsky, Arrielle C. and Rakhimov, Olzhas and Scopatz, Anthony M. and Wilson, Paul},
      month = jun,
      year = {2014},
      note = {http://figshare.com/articles/Cycamore\_v1\_0\_0/1041829},
      keywords = {agent-based simulation, Nuclear fuel cycle},
      file = {cycamore_1.0.0:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/MR8M72RH/Scopatz et al. - 2014 - Cycamore v1.0.0:application/zip;Figshare Download:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/MWK6V6EH/Scopatz et al. - 2014 - Cycamore v1.0.0:application/zip;Figshare Snapshot:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/4PAZGVJH/Scopatz et al. - 2014 - Cycamore v1.0.0.html:text/html;Full Text (HTML):/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/63CSK3EE/Scopatz et al. - 2014 - Cycamore v1.0.0.html:text/html}
    }
    
  9. Clerc, M. G., P. Cordero, J. Dunstan, Kathryn D. Huff, N. Mujica, D. Risso, and G. Varas. 2008. “Liquid-Solid-like Transition in Quasi-One-Dimensional Driven Granular Media.” Nature Physics 4 (3): 249–54. https://doi.org/10.1038/nphys884.
    @article{clerc_liquid-solid-like_2008,
      title = {Liquid-solid-like transition in quasi-one-dimensional driven granular media},
      volume = {4},
      issn = {1745-2473},
      url = {http://dx.doi.org.ezproxy.library.wisc.edu/10.1038/nphys884},
      doi = {10.1038/nphys884},
      number = {3},
      urldate = {2010-09-18},
      journal = {Nature Physics},
      author = {Clerc, M. G. and Cordero, P. and Dunstan, J. and Huff, Kathryn D. and Mujica, N. and Risso, D. and Varas, G.},
      month = mar,
      year = {2008},
      keywords = {KHuff},
      pages = {249--254},
      file = {Nature Snapshot:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/6J4UP7GJ/nphys884.html:text/html}
    }
    

In Progress / Submitted

  1. Scopatz, Anthony M., Kathryn D. Huff, Matthew J. Gidden, Robert W. Carlsen, Robert R. Flanagan, Meghan B. McGarry, Arrielle C. Opotowsky, Erich A. Schneider, and Paul P.H. Wilson. 2015. “Cyclus Archetypes.” Submitted.
    @article{scopatz_cyclus_2015,
      title = {Cyclus {Archetypes}},
      journal = {Submitted},
      author = {Scopatz, Anthony M. and Huff, Kathryn D. and Gidden, Matthew J. and Carlsen, Robert W. and Flanagan, Robert R. and McGarry, Meghan B. and Opotowsky, Arrielle C. and Schneider, Erich A. and Wilson, Paul P.H.},
      year = {2015},
      file = {paper.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/HG2BTTVV/paper.pdf:application/pdf}
    }
    

Conference Proceedings

  1. Djokic, Denia, Anthony M. Scopatz, Harris R. Greenberg, Kathryn D. Huff, Russell P. Nibbelink, and Massimiliano Fratoni. 2015. “The Application of CYCLUS to Fuel Cycle Transition Analysis.” In Proceedings of Global 2015, 5061. LLNL-CONF-669315. Paris, France.
    @inproceedings{djokic_application_2015,
      address = {Paris, France},
      series = {{LLNL}-{CONF}-669315},
      title = {The {Application} of {CYCLUS} to {Fuel} {Cycle} {Transition} {Analysis}},
      booktitle = {Proceedings of {Global} 2015},
      author = {Djokic, Denia and Scopatz, Anthony M. and Greenberg, Harris R. and Huff, Kathryn D. and Nibbelink, Russell P. and Fratoni, Massimiliano},
      month = sep,
      year = {2015},
      pages = {5061},
      file = {5061- final.docx:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/ZJFDG978/5061- final.docx:application/vnd.openxmlformats-officedocument.wordprocessingml.document;5061- final.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/I6959889/5061- final.pdf:application/pdf}
    }
    
  2. Huff, Kathryn D., Massimiliano Fratoni, and Harris Greenberg. 2014. “Extensions to the Cyclus Ecosystem In Support of Market-Driven Transition Capability.” In Transactions of the American Nuclear Society. Anaheim, CA, United States: American Nuclear Society.
    @inproceedings{huff_extensions_2014,
      address = {Anaheim, CA, United States},
      title = {Extensions to the {Cyclus} {Ecosystem} {In} {Support} of {Market}-{Driven} {Transition} {Capability}},
      booktitle = {Transactions of the {American} {Nuclear} {Society}},
      publisher = {American Nuclear Society},
      author = {Huff, Kathryn D. and Fratoni, Massimiliano and Greenberg, Harris},
      month = nov,
      year = {2014}
    }
    
  3. Krumwiede, David L., C. Andreades, J.K. Choi, A.T. Cisneros, Lakshana Huddar, Kathryn D. Huff, M.D. Laufer, et al. 2014. “Design of the Mark-1 Pebble-Bed, Fluoride-Salt-Cooled, High-Temperature Reactor Commercial Power Plant.” In Proceedings of ICAPP. Charlotte, North Carolina.
    @inproceedings{krumwiede_design_2014,
      address = {Charlotte, North Carolina},
      title = {Design of the {Mark}-1 {Pebble}-{Bed}, {Fluoride}-{Salt}-{Cooled}, {High}-{Temperature} {Reactor} {Commercial} {Power} {Plant}},
      shorttitle = {Paper 14231},
      booktitle = {Proceedings of {ICAPP}},
      author = {Krumwiede, David L. and Andreades, C. and Choi, J.K. and Cisneros, A.T. and Huddar, Lakshana and Huff, Kathryn D. and Laufer, M.D. and Munk, Madicken and Scarlat, Raluca O. and Seifried, Jeffrey E. and Zwiebaum, Nicolas and Greenspan, Ehud and Peterson, Per F.},
      year = {2014},
      file = {ICAPP 2014 FHR Design.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/TSK6N3UQ/ICAPP 2014 FHR Design.pdf:application/pdf}
    }
    
  4. Bates, Cameron, Elliot D. Biondo, Kathryn D. Huff, Kalin Kiesling, and Anthony M. Scopatz. 2014. “PyNE Progress Report.” In Transactions of the American Nuclear Society. Anaheim, CA, United States: American Nuclear Society.
    @inproceedings{bates_pyne_2014,
      address = {Anaheim, CA, United States},
      title = {{PyNE} {Progress} {Report}},
      booktitle = {Transactions of the {American} {Nuclear} {Society}},
      publisher = {American Nuclear Society},
      author = {Bates, Cameron and Biondo, Elliot D. and Huff, Kathryn D. and Kiesling, Kalin and Scopatz, Anthony M.},
      month = nov,
      year = {2014}
    }
    
  5. Huff, Kathryn D. 2013. “Hydrologic Nuclide Transport Models in Cyder, a Geologic Disposal Software Library.” In WM2013. Phoenix, AZ: Waste Management Symposium.
    @inproceedings{huff_hydrologic_2013,
      address = {Phoenix, AZ},
      title = {Hydrologic {Nuclide} {Transport} {Models} in {Cyder}, a {Geologic} {Disposal} {Software} {Library}.},
      shorttitle = {13328},
      booktitle = {{WM}2013},
      publisher = {Waste Management Symposium},
      author = {Huff, Kathryn D.},
      month = feb,
      year = {2013},
      file = {13328_corrected.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/AQZ4EEBC/13328_corrected.pdf:application/pdf;13328.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/J58XQMZU/13328.pdf:application/pdf}
    }
    
  6. ———. 2013. “Cyclus Fuel Cycle Simulation Capabilities with the Cyder Disposal System Model.” In Proceedings of GLOBAL 2013. Salt Lake City, UT, United States.
    @inproceedings{huff_cyclus_2013,
      address = {Salt Lake City, UT, United States},
      title = {Cyclus {Fuel} {Cycle} {Simulation} {Capabilities} with the {Cyder} {Disposal} {System} {Model}},
      booktitle = {Proceedings of {GLOBAL} 2013},
      author = {Huff, Kathryn D.},
      month = oct,
      year = {2013}
    }
    
  7. Huff, Kathryn D., and Alexander T. Bara. 2013. “Dynamic Determination of Thermal Repository Capacity For Fuel Cycle Analysis.” In Transactions of the American Nuclear Society, 108:123–26. Atlanta, GA, United States: American Nuclear Society.
    @inproceedings{huff_dynamic_2013,
      address = {Atlanta, GA, United States},
      title = {Dynamic {Determination} of {Thermal} {Repository} {Capacity} {For} {Fuel} {Cycle} {Analysis}},
      volume = {108},
      booktitle = {Transactions of the {American} {Nuclear} {Society}},
      publisher = {American Nuclear Society},
      author = {Huff, Kathryn D. and Bara, Alexander T.},
      month = jun,
      year = {2013},
      pages = {123--126},
      file = {trans_v108_n1_pp123-126 (1).pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/VKC3QS4D/trans_v108_n1_pp123-126 (1).pdf:application/pdf}
    }
    
  8. Gidden, Matthew, Paul Wilson, Kathryn D. Huff, and Robert W. Carlsen. 2013. “An Agent-Based Framework for Fuel Cycle Simulation with Recycling.” In Proceedings of GLOBAL. Salt Lake City, UT, United States.

    Simulation of the nuclear fuel cycle is an established field with multiple players. Prior development work has utilized tech- niques such as system dynamics to provide a solution structure for the matching of supply and demand in these simulations. In general, however, simulation infrastructure development has occured in relatively closed circles, each effort having unique considerations as to the cases which are desired to be modeled. Accordingly, individual simulators tend to have their design decisions driven by specific use cases. Presented in this work is a proposed supply and demand matching algorithm that lever- ages the techniques of the well-studied field of mathematical programming. A generic approach is achieved by treating fa- cilities as individual entities and actors in the supply-demand market which denote preferences amongst commodities. Using such a framework allows for varying levels of interaction fi- delity, ranging from low-fidelity, quick solutions to high-fidelity solutions that model individual transactions (e.g. at the fuel- assembly level). The power of the technique is that it allows such flexibility while still treating the problem in a generic man- ner, encapsulating simulation engine design decisions in such a way that future simulation requirements can be relatively easily added when needed.

    @inproceedings{gidden_agent-based_2013,
      address = {Salt Lake City, UT, United States},
      title = {An {Agent}-{Based} {Framework} for {Fuel} {Cycle} {Simulation} with {Recycling}},
      booktitle = {Proceedings of {GLOBAL}},
      author = {Gidden, Matthew and Wilson, Paul and Huff, Kathryn D. and Carlsen, Robert W.},
      month = sep,
      year = {2013},
      file = {abstract.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/J7CT24DA/abstract.pdf:application/pdf;paper.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/4JIZJ3IZ/paper.pdf:application/pdf}
    }
    
  9. Gidden, Matthew J., Paul P.H. Wilson, Kathryn D. Huff, and Robert W. Carlsen. 2012. “Once-Through Benchmarks with CYCLUS, a Modular, Open-Source Fuel Cycle Simulator.” In Transactions of the American Nuclear Society, 107:264–66. Nuclear Fuel Cycle Resources, Sustainability, Reuse, and Recycle. San Diego, CA: American Nuclear Society, La Grange Park, IL 60526, United States.
    @inproceedings{gidden_once-through_2012,
      address = {San Diego, CA},
      series = {Nuclear {Fuel} {Cycle} {Resources}, {Sustainability}, {Reuse}, and {Recycle}},
      title = {Once-{Through} {Benchmarks} with {CYCLUS}, a {Modular}, {Open}-{Source} {Fuel} {Cycle} {Simulator}},
      volume = {107},
      booktitle = {Transactions of the {American} {Nuclear} {Society}},
      publisher = {American Nuclear Society, La Grange Park, IL 60526, United States},
      author = {Gidden, Matthew J. and Wilson, Paul P.H. and Huff, Kathryn D. and Carlsen, Robert W.},
      month = nov,
      year = {2012},
      pages = {264--266},
      file = {trans_v107_n1_pp264-266 (1).pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/FBDTEQCX/trans_v107_n1_pp264-266 (1).pdf:application/pdf}
    }
    
  10. Scopatz, Anthony, Paul K. Romano, Paul P. H. Wilson, and Kathryn D. Huff. 2012. “PyNE: Python for Nuclear Engineering.” In Transactions of the American Nuclear Society. Vol. 107. San Diego, CA, USA: American Nuclear Society.
    @inproceedings{scopatz_pyne:_2012,
      address = {San Diego, CA, USA},
      title = {{PyNE}: {Python} for {Nuclear} {Engineering}},
      volume = {107},
      booktitle = {Transactions of the {American} {Nuclear} {Society}},
      publisher = {American Nuclear Society},
      author = {Scopatz, Anthony and Romano, Paul K. and Wilson, Paul P. H. and Huff, Kathryn D.},
      month = nov,
      year = {2012},
      file = {trans_v107_n1_pp985-987.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/QR8QECT6/trans_v107_n1_pp985-987.pdf:application/pdf}
    }
    
  11. Huff, Kathryn, and Theodore H. Bauer. 2012. “Numerical Calibration of an Analytical Generic Nuclear Repository Heat Transfer Model.” In Transactions of the American Nuclear Society, 106:260–63. Modeling and Simulation in the Fuel Cycle. Chicago, IL, United States: American Nuclear Society, La Grange Park, IL 60526, United States.

    This work describes a benchmarking effort conducted to de- termine the accuracy of a new generic geology thermal repos- itory model relative to more traditional techniques and pro- poses a physically plausible auxillary thermal resistance com- ponent to improve their agreement.

    @inproceedings{huff_numerical_2012,
      address = {Chicago, IL, United States},
      series = {Modeling and {Simulation} in the {Fuel} {Cycle}},
      title = {Numerical {Calibration} of an {Analytical} {Generic} {Nuclear} {Repository} {Heat} {Transfer} {Model}},
      volume = {106},
      language = {English},
      booktitle = {Transactions of the {American} {Nuclear} {Society}},
      publisher = {American Nuclear Society, La Grange Park, IL 60526, United States},
      author = {Huff, Kathryn and Bauer, Theodore H.},
      month = jun,
      year = {2012},
      pages = {260--263},
      file = {ans2012pres.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/QPHSENVT/ans2012pres.pdf:application/pdf;trans_v106_n1_pp260-263.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/MIJ6JC3R/trans_v106_n1_pp260-263.pdf:application/pdf}
    }
    
  12. Huff, Kathryn D., and W. Mark Nutt. 2012. “Key Processes and Parameters in a Generic Clay Disposal System Model.” In Transactions of the American Nuclear Society, 107:208–11. Environmental Sciences – General. San Diego, CA: American Nuclear Society. http://epubs.ans.org.ezproxy.library.wisc.edu/download/?a=14711.
    @inproceedings{huff_key_2012,
      address = {San Diego, CA},
      series = {Environmental {Sciences} -- {General}},
      title = {Key {Processes} and {Parameters} in a {Generic} {Clay} {Disposal} {System} {Model}},
      volume = {107},
      url = {http://epubs.ans.org.ezproxy.library.wisc.edu/download/?a=14711},
      language = {English},
      booktitle = {Transactions of the {American} {Nuclear} {Society}},
      publisher = {American Nuclear Society},
      author = {Huff, Kathryn D. and Nutt, W. Mark},
      month = nov,
      year = {2012},
      pages = {208--211},
      file = {ans2012winterpres.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/GB5IPZBT/ans2012winterpres.pdf:application/pdf;trans_v107_n1_pp208-211.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/MS2RF5BJ/trans_v107_n1_pp208-211.pdf:application/pdf}
    }
    
  13. Huff, Kathryn D. 2011. “Cyclus: An Open, Modular, Next Generation Fuel Cycle Simulator Platform (Poster).” In Proceedings of the Waste Management Symposium. Phoenix, AZ.

    CYCLUS is a top-level, next generation, nuclear fuel cycle simulation framework designed with an open development process and modular platform. It employs lessons learned from previous efforts to pursue quantitative assessment of worldwide nuclear energy production, material flows, energy costs, environmental impact, proliferation resistance, and robustness against supply disruption.

    @inproceedings{huff_cyclus:_2011,
      address = {Phoenix, AZ},
      title = {Cyclus: {An} {Open}, {Modular}, {Next} {Generation} {Fuel} {Cycle} {Simulator} {Platform} (poster)},
      booktitle = {Proceedings of the {Waste} {Management} {Symposium}},
      author = {Huff, Kathryn D.},
      month = mar,
      year = {2011},
      file = {WM2011.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/6QR4R7U6/WM2011.pdf:application/pdf}
    }
    
  14. Huff, Kathryn D., Paul PH Wilson, and Matthew J. Gidden. 2011. “Open Architecture and Modular Paradigm of Cyclus, a Fuel Cycle Simulation Code.” In Transactions of the American Nuclear Society, 104:183.
    @inproceedings{huff_open_2011,
      title = {Open {Architecture} and {Modular} {Paradigm} of {Cyclus}, a {Fuel} {Cycle} {Simulation} {Code}},
      volume = {104},
      booktitle = {Transactions of the {American} {Nuclear} {Society}},
      author = {Huff, Kathryn D. and Wilson, Paul PH and Gidden, Matthew J.},
      month = jun,
      year = {2011},
      pages = {183},
      file = {cyclusANS2011pres.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/T8WCWE7H/cyclusANS2011pres.pdf:application/pdf;trans_v104_n1_pp183-184.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/4RAGATZB/trans_v104_n1_pp183-184.pdf:application/pdf}
    }
    
  15. Huff, Kathryn D., A.M. Scopatz, N.D. Preston, and P.P.H. Wilson. 2011. “Rapid Peer Education of a Computational Nuclear Engineering Skill Suite.” In Transactions of the American Nuclear Society, 104:103–4. Training, Human Performance, and Work Force Development. Hollywood, FL, United States: American Nuclear Society, La Grange Park, IL 60526, United States.

    Detailed reactor models, massively parallelized calculations, and enormously collaborative simulation projects are increas- ingly integral to nuclear engineering. However, the quality and caliber of this work is limited by a workforce lacking formal training in a software development skill suite that is becom- ing increasingly essential. To address this unmet need, The Hacker Within (THW), a student organization at the University of Wisconsin, has developed a series of short courses address- ing best practices such as version control and test driven code development, as well as basic skills such as UNIX mobility. These ’Boot Camps’ seek to provide time efficient introduc- tions to essential programming languages and tools without turning “biochemists and mechanical engineers into computer scientists.”[1][2]

    @inproceedings{huff_rapid_2011,
      address = {Hollywood, FL, United States},
      series = {Training, {Human} {Performance}, and {Work} {Force} {Development}},
      title = {Rapid {Peer} {Education} of a {Computational} {Nuclear} {Engineering} {Skill} {Suite}},
      volume = {104},
      language = {English},
      booktitle = {Transactions of the {American} {Nuclear} {Society}},
      publisher = {American Nuclear Society, La Grange Park, IL 60526, United States},
      author = {Huff, Kathryn D. and Scopatz, A.M. and Preston, N.D. and Wilson, P.P.H.},
      month = jun,
      year = {2011},
      keywords = {Computer Science, Education, Models, Reactor, Software, The Hacker Within (THW)},
      pages = {103--104},
      file = {Rapid Peer Education Nuclear Engineering.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/53QIXIHR/Rapid Peer Education Nuclear Engineering.pdf:application/pdf;thwANS2011pres.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/JHG9A9NR/thwANS2011pres.pdf:application/pdf;trans_v104_n1_pp103-104.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/HDW82SP3/trans_v104_n1_pp103-104.pdf:application/pdf}
    }
    
  16. Huff, Kathryn D., Royal A. Elmore, Kyle M. Oliver, and Paul P.H. Wilson. 2010. “MOX Fuel Recipe Approximation Tests in GENIUSv2.” In Transactions of the American Nuclear Society Student Meeting. Ypsilanti, MI.
    @inproceedings{huff_mox_2010,
      address = {Ypsilanti, MI},
      title = {{MOX} {Fuel} {Recipe} {Approximation} {Tests} in {GENIUSv}2},
      booktitle = {Transactions of the {American} {Nuclear} {Society} {Student} {Meeting}},
      author = {Huff, Kathryn D. and Elmore, Royal A. and Oliver, Kyle M. and Wilson, Paul P.H.},
      month = apr,
      year = {2010},
      file = {ansStudent10RAP.doc:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/W9HP349H/ansStudent10RAP.doc:application/msword}
    }
    
  17. Oliver, Kyle M., Paul P.H. Wilson, Arnaud Reveillere, Tae Wook Ahn, Kerry Dunn, Kathryn D. Huff, and Royal A. Elmore. 2009. “Studying International Fuel Cycle Robustness with the GENIUSv2 Discrete Facilities/Materials Fuel Cycle Systems Analysis Tool.” In Proceedings of GLOBAL 2009. GLOBAL 2009: Advanced Nuclear Fuel Cycles and Systems. Paris, France.
    @inproceedings{oliver_studying_2009,
      address = {Paris, France},
      series = {{GLOBAL} 2009: {Advanced} {Nuclear} {Fuel} {Cycles} and {Systems}},
      title = {Studying international fuel cycle robustness with the {GENIUSv}2 discrete facilities/materials fuel cycle systems analysis tool},
      booktitle = {Proceedings of {GLOBAL} 2009},
      author = {Oliver, Kyle M. and Wilson, Paul P.H. and Reveillere, Arnaud and Ahn, Tae Wook and Dunn, Kerry and Huff, Kathryn D. and Elmore, Royal A.},
      month = sep,
      year = {2009},
      keywords = {Capacity, Discrete Facility/ Discrete Model (DF/DM), Geniusv2, Mass Flow Data, Nuclear Fuel Cycle Facilities, Nuclear Fuel Cycle Systems Analysis Tool},
      file = {2009_9_Oliver-GENIUS-GLOBAL2009-abstract.doc:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/TVJZH453/2009_9_Oliver-GENIUS-GLOBAL2009-abstract.doc:application/msword;2009_9_Oliver-GENIUS-GLOBAL2009-proceedings.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/5ZNITS68/2009_9_Oliver-GENIUS-GLOBAL2009-proceedings.pdf:application/pdf;2009_9_Oliver-GENIUS-GLOBAL2009-submission.doc:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/NJG7CIDT/2009_9_Oliver-GENIUS-GLOBAL2009-submission.doc:application/msword;2009_9_Oliver-GENIUS-GLOBAL2009-submission.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/M7H5E7HA/2009_9_Oliver-GENIUS-GLOBAL2009-submission.pdf:application/pdf}
    }
    
  18. Huff, Kathryn D., Paul P.H. Wilson, and Kyle M. Oliver. 2009. “GENIUS Version 2: Modeling the Worldwide Nuclear Fuel Cycle (Poster).” In Proceedings of the EHub Conference. University of Wisconsin, Madison.
    @inproceedings{huff_genius_2009,
      address = {University of Wisconsin, Madison},
      title = {{GENIUS} {Version} 2: {Modeling} the {Worldwide} {Nuclear} {Fuel} {Cycle} (poster)},
      booktitle = {Proceedings of the {eHub} {Conference}},
      author = {Huff, Kathryn D. and Wilson, Paul P.H. and Oliver, Kyle M.},
      month = nov,
      year = {2009}
    }
    
  19. Huff, Kathryn D., K. M Oliver, P. P.H Wilson, Tae W. Ahn, K. Dunn, and R. Elmore. 2009. “GENIUSv2 Discrete Facilities/Materials Modeling of International Fuel Cycle Robustness.” In Transactions of the American Nuclear Society, 101:239–40. Nuclear Fuel Cycle Codes and Applications. Washington D.C., United States: American Nuclear Society.
    @inproceedings{huff_geniusv2_2009,
      address = {Washington D.C., United States},
      series = {Nuclear {Fuel} {Cycle} {Codes} and {Applications}},
      title = {{GENIUSv}2 {Discrete} {Facilities}/{Materials} {Modeling} of {International} {Fuel} {Cycle} {Robustness}},
      volume = {101},
      booktitle = {Transactions of the {American} {Nuclear} {Society}},
      publisher = {American Nuclear Society},
      author = {Huff, Kathryn D. and Oliver, K. M and Wilson, P. P.H and Ahn, Tae W. and Dunn, K. and Elmore, R.},
      month = nov,
      year = {2009},
      keywords = {C++, Code, Fuel Cycle, Geniusv2, Global Evaluation of Nuclear Infrastructure Utilization Scenarios (GENIUS), Simulation, Technology},
      pages = {239--240},
      file = {2009_11_Huff-ANS2009Winter_Genius.doc:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/UBKQN2J9/2009_11_Huff-ANS2009Winter_Genius.doc:application/msword;2009_11_Huff_ANS2009Winter_Genius.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/QHVN4UQ3/2009_11_Huff_ANS2009Winter_Genius.pdf:application/pdf}
    }
    
  20. Elmore, R. A, K. M Oliver, P. P.H Wilson, Tae Wook Ahn, Kerry L. Dunn, and Kathryn D. Huff. 2009. “GENIUSv2 Recipe Approximation Methodology for Mixed-Oxide Fuel.” In Transactions of the American Nuclear Society, 101:241–42. Nuclear Fuel Cycle Codes and Applications. Washington D.C., United States.
    @inproceedings{elmore_geniusv2_2009,
      address = {Washington D.C., United States},
      series = {Nuclear {Fuel} {Cycle} {Codes} and {Applications}},
      title = {{GENIUSv}2 {Recipe} {Approximation} {Methodology} for {Mixed}-{Oxide} {Fuel}},
      volume = {101},
      booktitle = {Transactions of the {American} {Nuclear} {Society}},
      author = {Elmore, R. A and Oliver, K. M and Wilson, P. P.H and Ahn, Tae Wook and Dunn, Kerry L. and Huff, Kathryn D.},
      month = nov,
      year = {2009},
      keywords = {C++, Code, GENIUS (Global Evaluation of Nuclear Infrastrucutre Utilization Scenarios), Mixed-Oxide Fuel (MOX), Nuclear Fuel Cycle Facilities, Simulation Institute for Nuclear Enterprise Modeling and Analysis (SINEMA)},
      pages = {241--242},
      file = {2009_11_Elmore-ANS2009Winter_Genius.doc:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/VSCMED2R/2009_11_Elmore-ANS2009Winter_Genius.doc:application/msword;2009_11_Elmore_ANS2009Winter_Genius.pdf:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/526W7M2D/2009_11_Elmore_ANS2009Winter_Genius.pdf:application/pdf}
    }
    
  21. Mujica, Nicolas, Marcel Clerc, Patricio Cordero, Jocelyn Dunstan, Kathryn D. Huff, Loreto Oyarte, Rodrigo Soto, German Varas, and Dino Risso. 2008. “Solid-Liquid-like Transition in Vibrated Granular Monolayers.” In APS Division of Fluid Dynamics Meeting Abstracts. http://adsabs.harvard.edu/abs/2008APS..DFD.HM008M.
    @inproceedings{mujica_solid-liquid-like_2008,
      title = {Solid-liquid-like transition in vibrated granular monolayers},
      url = {http://adsabs.harvard.edu/abs/2008APS..DFD.HM008M},
      language = {en},
      urldate = {2014-10-10},
      booktitle = {{APS} {Division} of {Fluid} {Dynamics} {Meeting} {Abstracts}},
      author = {Mujica, Nicolas and Clerc, Marcel and Cordero, Patricio and Dunstan, Jocelyn and Huff, Kathryn D. and Oyarte, Loreto and Soto, Rodrigo and Varas, German and Risso, Dino},
      month = nov,
      year = {2008},
      file = {Snapshot:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/JVC89BR5/2008APS..DFD.html:text/html}
    }
    
  22. Rochman, D., R. C. Haight, S. A. Wender, J. M. O’Donnell, A. Michaudon, Kathryn D. Huff, D. J. Vieira, et al. 2005. “First Measurements with a Lead Slowing-Down Spectrometer at LANSCE.” In Proceedings of the International Conference on Nuclear Data for Science and Technology, 769:736–39. https://doi.org/10.1063/1.1945112.

    The characteristics of a Lead Slowing-Down Spectrometer (LSDS) installed at the Los Alamos Neutron Science Center (LANSCE) are presented in this paper. This instrument is designed to study neutron-induced fission on ultra small quantities of actinides, on the order of tens of nanograms or less. The measurements of the energy-time relation, energy resolution and neutron flux are compared to simulations performed with MCNPX. Results on neutron-induced fission of 235U and 239Pu with tens of micrograms and tens of nanograms, respectively, are presented. Finally, a digital filter designed to improve the detection of fission events at short time after the proton pulses is described.

    @inproceedings{rochman_first_2005,
      title = {First {Measurements} with a {Lead} {Slowing}-{Down} {Spectrometer} at {LANSCE}},
      volume = {769},
      isbn = {0094-243X},
      url = {http://adsabs.harvard.edu/abs/2005AIPC..769..736R},
      doi = {10.1063/1.1945112},
      urldate = {2014-10-10},
      booktitle = {Proceedings of the {International} {Conference} on {Nuclear} {Data} for {Science} and {Technology}},
      author = {Rochman, D. and Haight, R. C. and Wender, S. A. and O'Donnell, J. M. and Michaudon, A. and Huff, Kathryn D. and Vieira, D. J. and Bond, E. and Rundberg, R. S. and Kronenberg, A. and Wilhelmy, J. and Bredeweg, T. A. and Schwantes, J. and Ethvignot, T. and Granier, T. and Petit, M. and Danon, Y.},
      month = may,
      year = {2005},
      keywords = {=A, 220{\textless}, Neutron-induced fission, Nucleon-induced reactions, Spectrometers and spectroscopic techniques},
      pages = {736--739}
    }
    
  23. Mujica, Nicolas; Clerc, Marcel; Cordero, Patricio; Dunstan, Jocelyn; Huff, Kathryn; Oyarte, Loreto; Soto, Rodrigo; Varas, German; Risso, Dino. n.d. “Solid-Liquid-like Transition in Vibrated Granular Monolayers.” In . Accessed January 28, 2010. http://adsabs.harvard.edu//abs/2008APS..DFD.HM008M.

    The theory of non-ideal gases in thermodynamic equilibrium, for instance the van der Waals gas model, has played a central role in the understanding of coexisting phases. Here, we report a combined experimental, numerical and theoretical study of a liquid-solid-like phase transition which takes place in a vertically vibrated fluidized granular monolayer. The first experimental setup is a long, narrow channel, with a width of the order of a few particle diameters, hence the dynamics is quasi-one-dimensional. We have considered this configuration to characterize the dynamic behavior of the phase transition. The second setup is used to measure the pressure as function of particle density in order to clarify the physical mechanism behind this phase transition. We demonstrate that the transition is mediated by waves and that it is triggered by a negative compressibility as in van der Waals phase coexistence, although the system does not satisfy the hypotheses used to understand atomic systems. Finally, in order to further characterize this phase transition, we study static and dynamic correlation functions, and bond-orientational order parameters.

    @inproceedings{mujica_nicolas;_clerc_marcel;_cordero_patricio;_dunstan_jocelyn;_huff_kathryn;_oyarte_loreto;_soto_rodrigo;_varas_german;_risso_dino_solid-liquid-like_????,
      title = {Solid-liquid-like transition in vibrated granular monolayers},
      url = {http://adsabs.harvard.edu//abs/2008APS..DFD.HM008M},
      urldate = {2010-01-28},
      author = {{Mujica, Nicolas; Clerc, Marcel; Cordero, Patricio; Dunstan, Jocelyn; Huff, Kathryn; Oyarte, Loreto; Soto, Rodrigo; Varas, German; Risso, Dino}},
      keywords = {KHuff},
      file = {Solid-liquid-like transition in vibrated granular monolayers:/home/huff/.zotero/zotero/m4c2d0jp.default/zotero/storage/H9PRVQV5/2008APS..DFD.html:text/html}
    }