Helpful References

Below is a far-from-comprehensive list of references that we collected while organizing this session. Please feel free to suggest any additions!

  • Zurbuchen, T. H. and Hefti, S. and Fisk, L. A. and Gloeckler, G. and Schwadron, N. A. 2000, Magnetic Structure of the Slow Solar Wind: Constraints from Composition Data, Journal of Geophysical Research, 105:18327, (Link)

  • Schrijver, Carolus J. and DeRosa, Marc L. 2003, Photospheric and Heliospheric Magnetic Fields, Sol Phys, 212:165-200, (Link)

  • Schwadron, N. A. and McComas, D. J. 2003, Solar Wind Scaling Law, The Astrophysical Journal, 599:1395-1403, (Link)

  • Liewer, Paulett C. and Neugebauer, M. and Zurbuchen, Thomas 2004, Characteristics of Active-Region Sources of Solar Wind near Solar Maximum, Sol Phys, 223:209-229, (Link)

  • Ofman, L 2004, The Origin of the Slow Solar Wind in Coronal Streamers, Advances in Space Research, 33:681-688, (Link)

  • Schwadron, N. A. and McComas, D. J. and DeForest, C. 2006, Relationship between Solar Wind and Coronal Heating: Scaling Laws from Solar X-Rays, ApJ, 642:1173, (Link)

  • Sakao, Taro and Kano, Ryouhei and Narukage, Noriyuki and Kotoku, Jun'ichi and Bando, Takamasa and DeLuca, Edward E. and Lundquist, Loraine L. and Tsuneta, Saku and Harra, Louise K. and Katsukawa, Yukio and Kubo, Masahito and Hara, Hirohisa and Matsuzaki, Keiichi and Shimojo, Masumi and Bookbinder, Jay A. and Golub, Leon and Korreck, Kelly E. and Su, Yingna and Shibasaki, Kiyoto and Shimizu, Toshifumi and Nakatani, Ichiro 2007, Continuous Plasma Outflows from the Edge of a Solar Active Region as a Possible Source of Solar Wind, Science, 318:1585-1588, (Link)

  • Viall, Nicholeen M. and Spence, Harlan E. and Kasper, Justin 2009, Are Periodic Solar Wind Number Density Structures Formed in the Solar Corona?, Geophys. Res. Lett., 36:L23102, (Link)

  • Baker, D. and van Driel-Gesztelyi, L. and Mandrini, C. H. and Deḿoulin, P. and Murray, M. J. 2009, Magnetic Reconnection along Quasi-Separatrix Layers as a Driver of Ubiquitous Active Region Outflows, The Astrophysical Journal, 705:926-935, (Link)

  • Bradshaw, S. J. and Aulanier, G. and Del Zanna, G. 2011, A Reconnection-Driven Rarefaction Wave Model for Coronal Outflows, The Astrophysical Journal, 743:66, (Link)

  • Del Zanna, G. and Aulanier, G. and Klein, K.-L. and Török, T. 2011, A Single Picture for Solar Coronal Outflows and Radio Noise Storms, Astronomy and Astrophysics, Volume 526, id.A137, 12 pp., 526:A137, (Link)

  • Brooks, David H. and Warren, Harry P. 2011, Establishing a Connection Between Active Region Outflows and the Solar Wind: Abundance Measurements with EIS/Hinode, The Astrophysical Journal Letters, 727:L13, (Link)

  • Winebarger, Amy R. and Warren, Harry P. and Schmelz, Joan T. and Cirtain, Jonathan and Mulu-Moore, Fana and Golub, Leon and Kobayashi, Ken 2012, Defining the "Blind Spot" of Hinode EIS and XRT Temperature Measurements, The Astrophysical Journal Letters, 746:L17, (Link)

  • Osman, K. T. and Matthaeus, W. H. and Wan, M. and Rappazzo, A. F. 2012, Intermittency and Local Heating in the Solar Wind, Phys. Rev. Lett., 108:261102, (Link)

  • Slemzin, V. and Harra, L. and Urnov, A. and Kuzin, S. and Goryaev, F. and Berghmans, D. 2013, Signatures of Slow Solar Wind Streams from Active Regions in the Inner Corona, Sol Phys, 286:157-184, (Link)

  • Mandrini, C. H. and Nuevo, F. A. and Vaśquez, A. M. and Deḿoulin, P. and van Driel-Gesztelyi, L. and Baker, D. and Culhane, J. L. and Cristiani, G. D. and Pick, M. 2014, How Can Active Region Plasma Escape into the Solar Wind from Below a Closed Helmet Streamer?, Solar Physics, 289:4151-4171, (Link)

  • Culhane, J. L. and Brooks, D. H. and van Driel-Gesztelyi, L. and Deḿoulin, P. and Baker, D. and DeRosa, M. L. and Mandrini, C. H. and Zhao, L. and Zurbuchen, T. H. 2014, Tracking Solar Active Region Outflow Plasma from Its Source to the Near-Earth Environment, Solar Physics, 289:3799-3816, (Link)

  • Woolsey, L. N. and Cranmer, S. R. 2015, Time-Dependent Turbulent Heating of Open Flux Tubes in the Chromosphere, Corona, and Solar Wind, ApJ, 811:136, (Link)

  • Brooks, David H. and Ugarte-Urra, Ignacio and Warren, Harry P. 2015, Full-Sun Observations for Identifying the Source of the Slow Solar Wind, Nature Communications, 6:5947, (Link)

  • Cranmer, Steven R. and Asgari-Targhi, Mahboubeh and Miralles, Mari Paz and Raymond, John C. and Strachan, Leonard and Tian, Hui and Woolsey, Lauren N. 2015, The Role of Turbulence in Coronal Heating and Solar Wind Expansion, Phil. Trans. R. Soc. A, 373:20140148, (Link)

  • Fazakerley, A. N. and Harra, L. K. and van Driel-Gesztelyi, L. 2016, An Investigation of the Sources of Earth-Directed Solar Wind during Carrington Rotation 2053, The Astrophysical Journal, 823:145, (Link)

  • Dudiḱ, Jaroslav and Dzifčaḱova,́ Elena and Meyer-Vernet, Nicole and Zanna, Giulio Del and Young, Peter R. and Giunta, Alessandra and Sylwester, Barbara and Sylwester, Janusz and Oka, Mitsuo and Mason, Helen E. and Vocks, Christian and Matteini, Lorenzo and Krucker, Säm and Williams, David R. and Mackovjak, Šimon 2017, Nonequilibrium Processes in the Solar Corona, Transition Region, Flares, and Solar Wind (Invited Review), Sol Phys, 292:100, (Link)

  • Cranmer, Steven R. and Gibson, Sarah E. and Riley, Pete 2017, Origins of the Ambient Solar Wind: Implications for Space Weather, Space Sci Rev, 212:1345-1384, (Link)

  • Harra, Louise K. and Ugarte-Urra, Ignacio and De Rosa, Marc and Mandrini, Cristina and van Driel-Gesztelyi, Lidia and Baker, Deborah and Culhane, J. Leonard and Deḿoulin, Pascal 2017, A Study of the Long Term Evolution in Active Region Upflows, Publications of the Astronomical Society of Japan, 69:47, (Link)

  • Bemporad, A. 2017, Exploring the Inner Acceleration Region of Solar Wind: A Study Based on Coronagraphic UV and Visible Light Data, The Astrophysical Journal, 846:86, (Link)