References

Abramenko, V.I., Fisk, L.A., Yurchyshyn, V.B., 2006a, “The Rate of Emergence of Magnetic Dipoles in Coronal Holes and Adjacent Quiet-Sun Regions”, Astrophys. J. Lett., 641, L65–L68. [External LinkADS]
Abramenko, V.I., Pevtsov, A.A., Romano, P., 2006b, “Coronal Heating and Photospheric Turbulence Parameters: Observational Aspects”, Astrophys. J. Lett., 646, L81–L84. [External LinkADS]
Aiouaz, T., Peter, H., Lemaire, P., 2005, “The correlation between coronal Doppler shifts and the supergranular network”, Astron. Astrophys., 435, 713–721. [External LinkDOI], [External LinkADS]
Allen, L.A., Habbal, S.R., Li, X., 2000, “Thermal coupling of protons and neutral hydrogen with anisotropic temperatures in the fast solar wind”, J. Geophys. Res., 105, 23 123–23 134. [External LinkADS]
Altschuler, M.D., Newkirk Jr, G., 1969, “Magnetic fields and the structure of the solar corona. I: Methods of calculating coronal fields”, Solar Phys., 9, 131–149. [External LinkADS]
Altschuler, M.D., Perry, R.M., 1972, “On Determining the Electron Density Distribution of the Solar Corona from K-Coronameter Data”, Solar Phys., 23, 410–428. [External LinkADS]
Altschuler, M.D., Trotter, D.E., Orrall, F.Q., 1972, “Coronal Holes”, Solar Phys., 26, 354–365. [External LinkADS]
Anderson, S.W., Raymond, J.C., van Ballegooijen, A., 1996, “Ultraviolet Emission-Line Intensities and Coronal Heating by Velocity Filtration: Collisionless Results”, Astrophys. J., 457, 939–948. [External LinkADS]
Andretta, V., Jones, H.P., 1997, “On the Role of the Solar Corona and Transition Region in the Excitation of the Spectrum of Neutral Helium”, Astrophys. J., 489, 375–394. [External LinkADS]
Andries, J., Goossens, M., 2001, “Kelvin-Helmholtz instabilities and resonant flow instabilities for a coronal plume model with plasma pressure”, Astron. Astrophys., 368, 1083–1094. [External LinkADS]
Antiochos, S.K., DeVore, C.R., Karpen, J.T., Mikić, Z., 2007, “Structure and dynamics of the Sun’s open magnetic field”, Astrophys. J., 671, 936–946. [External LinkADS]
Antonucci, E., Dodero, M., Giordano, S., 2000, “Fast Solar Wind Velocity in a Polar Coronal Hole during Solar Minimum”, Solar Phys., 197, 115–134. [External LinkADS]
Antonucci, E., Dodero, M.A., Giordano, S., Krishnakumar, V., Noci, G., 2004, “Spectroscopic measurement of the plasma electron density and outflow velocity in a polar coronal hole”, Astron. Astrophys., 416, 749–758. [External LinkADS]
Arge, C.N., Pizzo, V.J., 2000, “Improvement in the prediction of solar wind conditions using near-real time solar magnetic field updates”, J. Geophys. Res., 105, 10 465–10 480. [External LinkADS]
Asai, A., Shibata, K., Hara, H., Nitta, N.V., 2008, “Characteristics of Anemone Active Regions Appearing in Coronal Holes Observed with the Yohkoh Soft X-Ray Telescope”, Astrophys. J., 673, 1188–1193. [External LinkADS]
Aschwanden, M.J., 2006, Physics of the Solar Corona: An Introduction with Problems and Solutions, 2nd ed., Springer-Praxis Books in Geophysical Sciences, Springer; Praxis, Berlin; New York; Chichester
Aschwanden, M.J., Winebarger, A., Tsiklauri, D., Peter, H., 2007, “The Coronal Heating Paradox”, Astrophys. J., 659, 1673–1681. [External LinkADS]
Aschwanden, M.J., Nitta, N.V., Wuelser, J.P., Lemen, J.R., Sandman, A., Vourlidas, A., Colaninno, R.C., 2009, “First Measurements of the Mass of Coronal Mass Ejections from the EUV Dimming Observed with STEREO EUVI A+B Spacecraft”, Astrophys. J., submitted. Related online version (cited on 1 September 2009):
External Linkhttp://www.lmsal.com/~aschwand/eprints/2009_dimming.pdf
Avrett, E.H., 1999, “Combined Effects of Mass Flow and Particle Diffusion on the Ionization Structure of the Solar Transition Region”, in Plasma Dynamics and Diagnostics in the Solar Transition Region and Corona, (Eds.) Vial, J.-C., Kaldeich-Schümann, B., Proceedings of the 8th SOHO Workshop, 22 – 25 June 1999, Paris, France, vol. SP-446 of ESA Conference Proceedings, pp. 141–147, ESA Publications Division, Noordwijk. [External LinkADS]
Avrett, E.H., Loeser, R., 2008, “Models of the Solar Chromosphere and Transition Region from SUMER and HRTS Observations: Formation of the Extreme-Ultraviolet Spectrum of Hydrogen, Carbon, and Oxygen”, Astrophys. J. Suppl. Ser., 175, 229–276. [External LinkADS]
Axford, W.I., McKenzie, J.F., 1992, “The origin of high speed solar wind streams”, in Solar Wind Seven, (Eds.) Marsch, E., Schwenn, R., Proceedings of the 3rd COSPAR Colloquium held in Goslar, Germany, 16 – 20 September 1991, vol. 3 of COSPAR Colloquia Series, pp. 1–5, Pergamon Press, Oxford; New York
Axford, W.I., McKenzie, J.F., 1997, “The Solar Wind”, in Cosmic Winds and the Heliosphere, (Eds.) Jokipii, J.R., Sonett, C.P., Giampapa, M.S., Space Science Series, pp. 31–66, Arizona University Press, Tucson
Banaszkiewicz, M., Axford, W.I., McKenzie, J.F., 1998, “An analytic solar magnetic field model”, Astron. Astrophys., 337, 940–944. [External LinkADS]
Banerjee, D., Teriaca, L., Doyle, J.G., Wilhelm, K., 1998, “Broadening of Si VIII lines observed in the solar polar coronal holes”, Astron. Astrophys., 339, 208–214. [External LinkADS]
Banerjee, D., Pérez-Suárez, D., Doyle, J.G., 2009, “Signatures of Alfvén waves in the polar coronal holes as seen by EIS/Hinode”, Astron. Astrophys., 501, L15–L18. [External LinkADS], [External LinkarXiv:0906.4600]
Barakat, A.R., Schunk, R.W., 2006, “A three-dimensional model of the generalized polar wind”, J. Geophys. Res., 111, A12314. [External LinkADS]
Barnes, A., Hollweg, J.V., 1974, “Large-amplitude hydromagnetic waves”, J. Geophys. Res., 79, 2302–2318. [External LinkDOI], [External LinkADS]
Barnes, G., Longcope, D.W., Leka, K.D., 2005, “Implementing a Magnetic Charge Topology Model for Solar Active Regions”, Astrophys. J., 629, 561–571. [External LinkADS]
Bastian, T.S., 2001, “Radio Wave Propagation in the Corona and the Interplanetary Medium”, Astrophys. Space Sci., 277, 107–116. [External LinkADS]
Beckers, J.M., 1968, “Solar Spicules (Invited Review Paper)”, Solar Phys., 3, 367–433. [External LinkADS]
Bell, B., Noci, G., 1973, “Are Coronal Holes M Regions?”, Bull. Am. Astron. Soc., 5, 269. [External LinkADS]
Bell, B., Noci, G., 1976, “Intensity of the Fe XV emission line corona, the level of geomagnetic activity, and the velocity of the solar wind”, J. Geophys. Res., 81, 4508–4516. [External LinkADS]
Bemporad, A., Matthaeus, W.H., Poletto, G., 2008, “Low-frequency Lyα Power Spectra Observed by UVCS in a Polar Coronal Hole”, Astrophys. J. Lett., 677, L137–L140. [External LinkADS]
Beresnyak, A., Lazarian, A., 2009, “Structure of Stationary Strong Imbalanced Turbulence”, Astrophys. J., 702, 460–471. [External LinkADS], [External LinkarXiv:0904.2574]
Berger, T.E., Title, A.M., 2001, “On the Relation of G-Band Bright Points to the Photospheric Magnetic Field”, Astrophys. J., 553, 449–469. [External LinkADS]
Beveridge, C., Longcope, D.W., Priest, E.R., 2003, “A model for elemental coronal flux loops”, Solar Phys., 216, 27–40. [External LinkADS]
Bieber, J.W., Wanner, W., Matthaeus, W.H., 1996, “Dominant two-dimensional solar wind turbulence with implications for cosmic ray transport”, J. Geophys. Res., 101, 2511–2522. [External LinkDOI], [External LinkADS]
Blandford, R.D., Payne, D.G., 1982, “Hydromagnetic flows from accretion discs and the production of radio jets”, Mon. Not. R. Astron. Soc., 199, 883–903. [External LinkADS]
Bourouaine, S., Marsch, E., Vocks, C., 2008, “‘On the efficiency of nonresonant ion heating by coronal Alfvén waves”, Astrophys. J. Lett., 684, L119–L122. [External LinkADS]
Breech, B., Matthaeus, W.H., Minnie, J., Bieber, J.W., Oughton, S., Smith, C.W., Isenberg, P.A., 2008, “Turbulence transport throughout the heliosphere”, J. Geophys. Res., 113, A08105. [External LinkADS]
Bryans, P., Landi, E., Savin, D.W., 2009, “A New Approach to Analyzing Solar Coronal Spectra and Updated Collisional Ionization Equilibrium Calculations: II, Updated Ionization Rate Coefficients”, Astrophys. J., 691, 1540–1559. [External LinkADS]
Burlaga, L.F., Mish, W.H., Whang, Y.C., 1990, “Coalescence of recurrent streams of different sizes and amplitudes”, J. Geophys. Res., 95, 4247–4255. [External LinkADS]
Byhring, H.S., Esser, R., Lie-Svendsen, Ø., 2008, “The Funnel Geometry of Open Flux Tubes in the Low Solar Corona Constrained by O VI and Ne VIII Outflow”, Astrophys. J. Lett., 673, L91–L94. [External LinkADS]
Centeno, R., Trujillo Bueno, J., Uitenbroek, H., Collados, M., 2008, “The influence of coronal EUV irradiance on the emission in the He I 10830 Å and D3 multiplets”, Astrophys. J., 677, 742–750. [External LinkADS]
Chae, J., Yun, H.S., Poland, A.I., 1997, “Effects of Non-LTE Radiative Loss and Partial Ionization on the Structure of the Transition Region”, Astrophys. J., 480, 817–824. [External LinkADS]
Chandran, B.D.G., 2005, “Weak Compressible Magnetohydrodynamic Turbulence in the Solar Corona”, Phys. Rev. Lett., 95, 265 004. [External LinkADS]
Chandran, B.D.G., Quataert, E., Howes, G.G., Hollweg, J.V., Dorland, W., 2009a, “The Turbulent Heating Rate in Strong MHD Turbulence with Nonzero Cross Helicity”, Astrophys. J., 701, 652–657. [External LinkADS], [External LinkarXiv:0905.3382]
Chandran, B.D.G., Quataert, E., Howes, G.G., Xia, Q., Pongkitiwanichakul, P., 2009b, “Constraining Low-Frequency Alfvénic Turbulence in the Solar Wind Using Density Fluctuation Measurements”, Astrophys. J., submitted. [External LinkarXiv:0908.0757]
Chen, L., Lin, Z., White, R., 2001, “On resonant heating below the cyclotron frequency”, Phys. Plasmas, 8, 4713–4716. [External LinkADS]
Chen, Y., Li, X., Song, H.Q., Shi, Q.Q., Feng, S.W., Xia, L.D., 2009, “Intrinsic Instability of Coronal Streamers”, Astrophys. J., 691, 1936–1942. [External LinkADS]
Cho, J., Lazarian, A., Vishniac, E.T., 2002, “Simulations of Magnetohydrodynamic Turbulence in a Strongly Magnetized Medium”, Astrophys. J., 564, 291–301. [External LinkADS]
Cirtain, J.W., Golub, L., Lundquist, L., van Ballegooijen, A., Savcheva, A., Shimojo, M., DeLuca, E., Tsuneta, S., Sakao, T., Reeves, K., Weber, M., Kano, R., Narukage, N., Shibasaki, K., 2007, “Evidence for Alfvén waves in solar X-ray jets”, Science, 318, 1580–1582. [External LinkADS]
Close, R.M., Parnell, C.E., Mackay, D.H., Priest, E.R., 2003, “Statistical Flux Tube Properties of 3D Magnetic Carpet Fields”, Solar Phys., 212, 251–275. [External LinkDOI], [External LinkADS]
Cohen, O., Sokolov, I.V., Roussev, I.I., Arge, C.N., Manchester, W.B., Gombosi, T.I., Frazin, R.A., Park, H., Butala, M.D., Kamalabadi, F., Velli, M., 2007, “A Semiempirical Magnetohydrodynamical Model of the Solar Wind”, Astrophys. J. Lett., 654, L163–L166. [External LinkADS]
Coleman, P.J., 1968, “Turbulence, Viscosity, and Dissipation in the Solar-Wind Plasma”, Astrophys. J., 153, 371–388. [External LinkDOI], [External LinkADS]
Collier, M.R., Hamilton, D.C., Gloeckler, G., Bochsler, P., Sheldon, R.B., 1996, “Neon-20, Oxygen-16, and Helium-4 densities, temperatures, and suprathermal tails in the solar wind determined with WIND/MASS”, Geophys. Res. Lett., 23, 1191–1194. [External LinkDOI], [External LinkADS]
Cranmer, S.R., 2000, “Ion Cyclotron Wave Dissipation in the Solar Corona: The Summed Effect of more than 2000 Ion Species”, Astrophys. J., 532, 1197–1208. [External LinkDOI], [External LinkADS]
Cranmer, S.R., 2001, “Ion cyclotron diffusion of velocity distributions in the extended solar corona”, J. Geophys. Res., 106, 24,937–24,954. [External LinkDOI], [External LinkADS]
Cranmer, S.R., 2002a, “Coronal Holes and the High-Speed Solar Wind”, Space Sci. Rev., 101, 229–294. [External LinkDOI], [External LinkADS]
Cranmer, S.R., 2002b, “Solar wind acceleration in coronal holes”, in From Solar Min to Max: Half a Solar Cycle with SOHO, (Ed.) Wilson, A., Proceedings of the SOHO-11 Symposium, 11 – 15 March 2002, Davos, Switzerland, vol. SP-508 of ESA Conference Proceedings, pp. 361–366, ESA Publications Division, Noordwijk. [External LinkADS]
Cranmer, S.R., 2004a, “Observational Aspects of Wave Acceleration in Open Magnetic Regions”, in Waves, Oscillations, and Small-Scale Transient Events in the Solar Atmosphere: A Joint View from SOHO and TRACE, (Ed.) Lacoste, H., Proceedings of the SOHO-13 Workshop, 29 September – 3 October 2003, Palma de Mallorca, Spain, vol. SP-547 of ESA Conference Proceedings, pp. 353–362, ESA Publications Division, Noordwijk. [External LinkADS]
Cranmer, S.R., 2004b, “Coronal Heating versus Solar Wind Acceleration”, in Coronal Heating, (Eds.) Walsh, R.W., Ireland, J., Danesy, D., Fleck, B., Proceedings of the SOHO-15 Workshop, 6 – 9 September 2004, St. Andrews, Scotland, UK, vol. SP-575 of ESA Conference Proceedings, pp. 154–163, ESA Publications Division, Noordwijk. [External LinkADS]
Cranmer, S.R., 2005, “Why is the Fast Solar Wind Fast and the Slow Solar Wind Slow? A Survey of Geometrical Models”, in Connecting Sun and Heliosphere, (Eds.) Fleck, B., Zurbuchen, T.H., Lacoste, H., Proceedings of Solar Wind 11 / SOHO 16, 12 – 17 June 2005, Whistler, Canada, vol. SP-592 of ESA Conference Proceedings, pp. 159–164, ESA Publications Division, Noordwijk. [External LinkADS]
Cranmer, S.R., 2007, “Turbulence in the solar corona”, in Turbulence and Nonlinear Processes in Astrophysical Plasmas, (Eds.) Shaikh, D., Zank, G.P., Proceedings of the 6th Annual International Astrophysics Conference, Oahu, Hawaii, 16 – 22 March 2007, vol. 932 of AIP Conference Proceedings, pp. 327–332, American Institute of Physics, Melville, NY. [External LinkADS]
Cranmer, S.R., 2008a, “Winds of Main-Sequence Stars: Observational Limits and a Path to Theoretical Prediction”, in Cool Stars, Stellar Systems, and the Sun: 14th Cambridge Workshop, (Ed.) van Belle, G., 5 – 10 November 2006, Pasadena, California, vol. 384 of ASP Conference Series, pp. 317–326, Astronomical Society of the Pacific, San Francisco. [External LinkADS]
Cranmer, S.R., 2008b, “Turbulence-driven polar winds from T Tauri stars energized by magnetospheric accretion”, Astrophys. J., 689, 316–334. [External LinkADS]
Cranmer, S.R., van Ballegooijen, A.A., 2003, “Alfvénic turbulence in the extended solar corona: kinetic effects and proton heating”, Astrophys. J., 594, 573–591. [External LinkDOI], [External LinkADS]
Cranmer, S.R., van Ballegooijen, A.A., 2005, “On the generation, propagation, and reflection of Alfvén waves from the solar photosphere to the distant heliosphere”, Astrophys. J. Suppl. Ser., 156, 265–293. [External LinkDOI], [External LinkADS]
Cranmer, S.R., Field, G.B., Kohl, J.L., 1999a, “Spectroscopic constraints on models of ion cyclotron resonance heating in the polar solar corona and high-speed solar wind”, Astrophys. J., 518, 937–947. [External LinkDOI], [External LinkADS]
Cranmer, S.R., Kohl, J.L., Noci, G., Antonucci, E., Tondello, G., Huber, M.C.E., Strachan, L., Panasyuk, A.V., Gardner, L.D., Romoli, M., Fineschi, S., Dobrzycka, D., Raymond, J.C., Nicolosi, P., Siegmund, O.H.W., Spadaro, D., Benna, C., Ciaravella, A., Giordano, S., Habbal, S.R., Karovska, M., Li, X., Martin, R., Michels, J.G., Modigliani, A., Naletto, G., O’Neal, R.H., Pernechele, C., Poletto, G., Smith, P.L., Suleiman, R.M., 1999b, “An Empirical Model of a Polar Coronal Hole at Solar Minimum”, Astrophys. J., 511, 481–501. [External LinkADS]
Cranmer, S.R., van Ballegooijen, A.A., Edgar, R.J., 2007, “Self-consistent coronal heating and solar wind acceleration from anisotropic magnetohydrodynamic turbulence”, Astrophys. J. Suppl. Ser., 171, 520–551. [External LinkADS]
Cranmer, S.R., Panasyuk, A.V., Kohl, J.L., 2008, “Improved Constraints on the Preferential Heating and Acceleration of Oxygen Ions in the Extended Solar Corona”, Astrophys. J., 678, 1480–1497. [External LinkADS]
Cranmer, S.R., Matthaeus, W.H., Breech, B.A., Kasper, J.C., 2009, “Empirical Constraints on Proton and Electron Heating in the Fast Solar Wind”, Astrophys. J., 702, 1604–1614. [External LinkADS]
Crooker, N.U., 2004, “What Is the International Heliophysical Year?”, Eos Trans. AGU, 85, 351–353. [External LinkADS]
Culhane, L., Harra, L.K., Baker, D., van Driel-Gesztelyi, L., Sun, J., Doschek, G.A., Brooks, D.H., Lundquist, L.L., Kamio, S., Young, P.R., Hansteen, V.H., 2007, “Hinode EUV Study of Jets in the Sun’s South Polar Corona”, Publ. Astron. Soc. Japan, 59, S751–S756. [External LinkADS]
Dasso, S., Milano, L.J., Matthaeus, W.H., Smith, C.W., 2005, “Anisotropy in Fast and Slow Solar Wind Fluctuations”, Astrophys. J. Lett., 635, L181–L184. [External LinkADS]
David, C., Gabriel, A.H., Bely-Dubau, F., Fludra, A., Lemaire, P., Wilhelm, K., 1998, “Measurement of the electron temperature gradient in a solar coronal hole”, Astron. Astrophys., 336, L90–L94. [External LinkADS]
Davila, J.M., Gopalswamy, N., Thompson, B.J., 2009, “Universal processes in heliophysics”, Proc. IAU, 4, 11–16. [External LinkDOI], [External LinkADS]. Proceedings of IAU Symposium 257, 15 – 19 September 2008, Ioannina, Greece
De Pontieu, B., McIntosh, S.W., Carlsson, M., Hansteen, V.H., Tarbell, T.D., Schrijver, C.J., Title, A.M., Shine, R.A., Tsuneta, S., Katsukawa, Y., Ichimoto, K., Suematsu, Y., Shimizu, T., Nagata, S., 2007, “Chromospheric Alfvénic waves strong enough to power the solar wind”, Science, 318, 1574–1577. [External LinkADS]
de Toma, G., Arge, C.N., 2005, “Multi-wavelength Observations of Coronal Holes”, in Large-scale Structures and their Role in Solar Activity, (Eds.) Sankarasubramanian, K., Penn, M., Pevtsov, A., Proceedings of the 22nd Sacramento Peak Workshop, held at the National Solar Observatory, Sacramento Peak, Sunspot, New Mexico, USA, 18 – 22 October 2004, vol. 346 of ASP Conference Series, pp. 251–260, Astronomical Society of the Pacific, San Francisco. [External LinkADS]
DeForest, C.E., Gurman, J.B., 1998, “Observation of Quasi-periodic Compressive Waves in Solar Polar Plumes”, Astrophys. J. Lett., 501, L217–L220. [External LinkDOI], [External LinkADS]
DeForest, C.E., Hoeksema, J.T., Gurman, J.B., Thompson, B.J., Plunkett, S.P., Howard, R., Harrison, R.C., Hassler, D.M., 1997, “Polar Plume Anatomy: Results of a Coordinated Observation”, Solar Phys., 175, 393–410. [External LinkADS]
DeForest, C.E., Lamy, P.L., Llebaria, A., 2001, “Solar Polar Plume Lifetime and Coronal Hole Expansion: Determination from Long-Term Observations”, Astrophys. J., 560, 490–498. [External LinkADS]
Del Zanna, G., Bromage, B.J.I., 1999, “The Elephant’s Trunk: Spectroscopic diagnostics applied to SOHO/CDS observations of the August 1996 equatorial coronal hole”, J. Geophys. Res., 104, 9753–9766. [External LinkADS]
Del Zanna, L., von Steiger, R., Velli, M., 1998, “The Expansion of Coronal Plumes in the Fast Solar Wind”, Space Sci. Rev., 85, 349–356. [External LinkADS]
Dmitruk, P., Matthaeus, W.H., 2003, “Low-Frequency Waves and Turbulence in an Open Magnetic Region: Timescales and Heating Efficiency”, Astrophys. J., 597, 1097–1105. [External LinkADS]
Dmitruk, P., Milano, L.J., Matthaeus, W.H., 2001, “Wave-driven Turbulent Coronal Heating in Open Field Line Regions: Nonlinear Phenomenological Model”, Astrophys. J., 548, 482–491. [External LinkADS]
Dmitruk, P., Matthaeus, W.H., Milano, L.J., Oughton, S., Zank, G.P., Mullan, D.J., 2002, “Coronal Heating Distribution Due to Low-Frequency, Wave-driven Turbulence”, Astrophys. J., 575, 571–577. [External LinkADS]
Dmitruk, P., Matthaeus, W.H., Seenu, N., 2004, “Test Particle Energization by Current Sheets and Nonuniform Fields in Magnetohydrodynamic Turbulence”, Astrophys. J., 617, 667–679. [External LinkADS]
Dobrowolny, M., Mangeney, A., Veltri, P., 1980, “Fully developed anisotropic hydromagnetic turbulence in interplanetary space”, Phys. Rev. Lett., 45, 144–147. [External LinkDOI], [External LinkADS]
Dobrzycka, D., Raymond, J.C., Cranmer, S.R., 2000, “Ultraviolet Spectroscopy of Polar Coronal Jets”, Astrophys. J., 538, 922–931. [External LinkADS]
Dobrzycka, D., Raymond, J., DeLuca, E., Gurman, J., Fludra, A., Biesecker, D., 2006, “SOHO Observations of Polar Coronal Jets over the Last Solar Cycle”, in SOHO-17: 10 Years of SOHO and Beyond, (Eds.) Lacoste, H., Ouwehand, L., Proceedings of the conference held 7 – 12 May 2006 at Giardini Naxos, Sicily, Italy, vol. SP-617 of ESA Conference Proceedings, pp. 87.1–87.4, ESA Publications Division, Noordwijk. [External LinkADS]
Dolla, L., Solomon, J., 2008, “Solar off-limb line widths: Alfvén waves, ion-cyclotron waves, and preferential heating”, Astron. Astrophys., 483, 271–283. [External LinkADS]
Doschek, G.A., Feldman, U., Laming, J.M., Schühle, U., Wilhelm, K., 2001, “Properties of Solar Polar Coronal Hole Plasmas Observed above the Limb”, Astrophys. J., 546, 559–568. [External LinkADS]
Dowdy, J.F., Rabin, D., Moore, R.L., 1986, “On the magnetic structure of the quiet transition region”, Solar Phys., 105, 35–45. [External LinkADS]
Doyle, J.G., Teriaca, L., Banerjee, D., 1999, “Coronal hole diagnostics out to 8 R”, Astron. Astrophys., 349, 956–960. [External LinkADS]
Dunn, R.B., Zirker, J.B., 1973, “The Solar Filigree”, Solar Phys., 33, 281–304. [External LinkADS]
Dupree, A.K., Penn, M.J., Jones, H.P., 1996, “He I 10830 Å Wing Asymmetry in Polar Coronal Holes: Evidence for Radial Outflows”, Astrophys. J. Lett., 467, L121–L124. [External LinkADS]
Dupree, A.K., Brickhouse, N.S., Smith, G.H., Strader, J., 2005, “A Hot Wind from the Classical T Tauri Stars: TW Hydrae and T Tauri”, Astrophys. J. Lett., 625, L131–L134. [External LinkADS]
Eastwood, J.P., 2008, “The science of space weather”, Philos. Trans. R. Soc. London, Ser. A, 366, 4489–4500. [External LinkADS]
Ergun, R.E., Carlson, C.W., Muschietti, L., Roth, I., McFadden, J.P., 1999, “Properties of fast solitary structures”, Nonlinear Proc. Geophys., 6, 187–194. [External LinkADS]
Esser, R., Edgar, R.J., 2000, “Reconciling Spectroscopic Electron Temperature Measurements in the Solar Corona with In Situ Charge State Observations”, Astrophys. J., 532, L71–L74. [External LinkDOI], [External LinkADS]
Esser, R., Fineschi, S., Dobrzycka, D., Habbal, S.R., Edgar, R.J., Raymond, J.C., Kohl, J.L., Guhathakurta, M., 1999, “Plasma Properties in Coronal Holes Derived from Measurements of Minor Ion Spectral Lines and Polarized White Light Intensity”, Astrophys. J. Lett., 510, L63–L67. [External LinkADS]
Feigelson, E.D., Montmerle, T., 1999, “High-energy processes in young stellar objects”, Annu. Rev. Astron. Astrophys., 37, 363–408. [External LinkDOI], [External LinkADS]
Feldman, U., 1998, “FIP Effect in the Solar Upper Atmosphere: Spectroscopic Results”, Space Sci. Rev., 85, 227–240. [External LinkADS]
Feldman, U., Widing, K.G., 2003, “Elemental Abundances in the Solar Upper Atmosphere Derived by Spectroscopic Means”, Space Sci. Rev., 107, 665–720. [External LinkADS]
Feldman, U., Widing, K.G., Warren, H.P., 1999, “Morphology of the quiet solar upper atmosphere in the 4 × 104 < T e < 1.4 × 106 K temperature regime”, Astrophys. J., 522, 1133–1147. [External LinkADS]
Feldman, U., Landi, E., Schwadron, N.A., 2005, “On the sources of fast and slow solar wind”, J. Geophys. Res., 110, A07109. [External LinkADS]
Feldman, U., Landi, E., Doschek, G.A., 2007, “Diagnostics of Suprathermal Electrons in Active-Region Plasmas Using He-like UV Lines”, Astrophys. J., 660, 1674–1682. [External LinkADS]
Feng, X., Zhou, Y., Wu, S.T., 2007, “A Novel Numerical Implementation for Solar Wind Modeling by the Modified Conservation Element/Solution Element Method”, Astrophys. J., 655, 1110–1126. [External LinkADS]
Ferreira, J., Dougados, C., Cabrit, S., 2006, “Which jet launching mechanism(s) in T Tauri stars?”, Astron. Astrophys., 453, 785–796. [External LinkADS]
Feynman, J., Gabriel, S.B., 2000, “On space weather consequences and predictions”, J. Geophys. Res., 105, 10 543–10 564. [External LinkADS]
Filippov, B., Golub, L., Koutchmy, S., 2009, “X-Ray Jet Dynamics in a Polar Coronal Hole Region”, Solar Phys., 254, 259–269. [External LinkADS]
Fisher, R., Guhathakurta, M., 1995, “Physical Properties of Polar Coronal Rays and Holes as Observed with the Spartan 201-01 Coronagraph”, Astrophys. J. Lett., 447, L139–L142. [External LinkADS]
Fisher, R., Sime, D.G., 1984, “Solar activity cycle variation of the K corona”, Astrophys. J., 285, 354–358. [External LinkADS]
Fisk, L.A., 2003, “Acceleration of the solar wind as a result of the reconnection of open magnetic flux with coronal loops”, J. Geophys. Res., 108, 1157. [External LinkADS]
Fisk, L.A., 2005, “The open magnetic flux of the Sun: I: Transport by reconnections with coronal loops”, Astrophys. J., 626, 563–573. [External LinkADS]
Fisk, L.A., Schwadron, N.A., 2001, “The Behavior of the Open Magnetic Field of the Sun”, Astrophys. J., 560, 425–438. [External LinkADS]
Fisk, L.A., Zhao, L., 2009, “The heliospheric magnetic field and the solar wind during the solar cycle”, Proc. IAU, 4, 109–120. [External LinkDOI], [External LinkADS]. Proceedings of IAU Symposium 257, 15 – 19 September 2008, Ioannina, Greece
Fisk, L.A., Zurbuchen, T.H., 2006, “Distribution and properties of open magnetic flux outside of coronal holes”, J. Geophys. Res., 111, A09115. [External LinkADS]
Fisk, L.A., Schwadron, N.A., Zurbuchen, T.H., 1999, “Acceleration of the fast solar wind by the emergence of new magnetic flux”, J. Geophys. Res., 104, 19,765–19,772. [External LinkDOI], [External LinkADS]
Frazin, R.A., Vásquez, A.M., Kamalabadi, F., Park, H., 2007, “Three-dimensional Tomographic Analysis of a High-Cadence LASCO-C2 Polarized Brightness Sequence”, Astrophys. J. Lett., 671, L201–L204. [External LinkADS]
Gabriel, A.H., 1976, “A magnetic model of the solar transition region”, Philos. Trans. R. Soc. London, Ser. A, 281, 339–352. [External LinkADS]
Gabriel, A.H., Bely-Dubau, F., Lemaire, P., 2003, “The contribution of polar plumes to the fast solar wind”, Astrophys. J., 589, 623–634. [External LinkADS]
Galinsky, V.L., Shevchenko, V.I., 2000, “Nonlinear Cyclotron Resonant Wave-Particle Interaction in a Nonuniform Magnetic Field”, Phys. Rev. Lett., 85, 90–93. [External LinkDOI], [External LinkADS]
Gardner, L.D., Kohl, J.L., Daigneau, P.S., Smith, P.L., Strachan Jr, L., Howard, R.A., Socker, D.G., Davila, J.M., Noci, G., Romoli, M., Fineschi, S., 2003, “Advanced Spectroscopic and Coronographic Explorer: science payload design concept”, in Polarimetry in Astronomy, (Ed.) Fineschi, S., Waikoloa, HI, USA 25 August 2002, vol. 4843 of Proceedings of SPIE, pp. 1–7, SPIE, Bellingham, WA. [External LinkDOI], [External LinkADS]
Gary, S.P., Borovsky, J.E., 2008, “Damping of long-wavelength kinetic Alfvén fluctuations: Linear theory”, J. Geophys. Res., 113, A12104. [External LinkADS]
Gibson, S.E., Fludra, A., Bagenal, F., Biesecker, D., Del Zanna, G., Bromage, B., 1999, “Solar minimum streamer densities and temperatures using Whole Sun Month coordinated data sets”, J. Geophys. Res., 104, 9691–9700. [External LinkADS]
Giordano, S., Antonucci, E., Noci, G., Romoli, M., Kohl, J.L., 2000, “Identification of the Coronal Sources of the Fast Solar Wind”, Astrophys. J. Lett., 531, L79–L82. [External LinkADS]
Gloeckler, G., Zurbuchen, T.H., Geiss, J., 2003, “Implications of the observed anticorrelation between solar wind speed and coronal electron temperature”, J. Geophys. Res., 108, 1158. [External LinkADS]
Gold, T., 1955, “The symmetry of the corona of 1954 June 30”, Mon. Not. R. Astron. Soc., 115, 340–342. [External LinkADS]
Goldreich, P., Sridhar, S., 1995, “Toward a Theory of Interstellar Turbulence: 2, Strong Alfvénic Turbulence”, Astrophys. J., 438, 763–775. [External LinkADS]
Goldstein, B.E., Neugebauer, M., Phillips, J.L., Bame, S., Gosling, J.T., McComas, D., Wang, Y.-M., Sheeley Jr, N.R., Suess, S.T., 1996, “Ulysses plasma parameters: Latitudinal, radial, and temporal variations”, Astron. Astrophys., 316, 296–303. [External LinkADS]
Goldstein, M.L., Roberts, D.A., Matthaeus, W.H., 1997, “Magnetohydrodynamic Turbulence in Cosmic Winds”, in Cosmic Winds and the Heliosphere, (Eds.) Jokipii, J.R., Sonett, C.P., Giampapa, M.S., Space Science Series, pp. 521–580, University of Arizona Press, Tucson
Gómez, D.O., Dmitruk, P.A., Milano, L.J., 2000, “Recent theoretical results on coronal heating”, Solar Phys., 195, 299–318. [External LinkADS]
Gosling, J.T., Szabo, A., 2008, “Bifurcated current sheets produced by magnetic reconnection in the solar wind”, J. Geophys. Res., 113, A10103. [External LinkADS]
Gosling, J.T., Skoug, R.M., McComas, D.J., Smith, C.W., 2005, “Magnetic disconnection from the Sun: Observations of a reconnection exhaust in the solar wind at the heliospheric current sheet”, Geophys. Res. Lett., 32, L05105. [External LinkDOI], [External LinkADS]
Güdel, M., 2007, “The Sun in Time: Activity and Environment”, Living Rev. Solar Phys., 4, lrsp-2007-3. URL (cited on 1 July 2009):
http://www.livingreviews.org/lrsp-2007-3
Güdel, M., Audard, M., Briggs, K., Haberl, F., Magee, H., Maggio, A., Mewe, R., Pallavicini, R., Pye, J., 2001, “The XMM-Newton view of stellar coronae: X-ray spectroscopy of the corona of AB Doradus”, Astron. Astrophys., 365, L336–L343. [External LinkDOI], [External LinkADS]
Güdel, M., Arzner, K., Audard, M., Mewe, R., 2003, “Tomography of a stellar X-ray corona: α Coronae Borealis”, Astron. Astrophys., 403, 155–171. [External LinkDOI], [External LinkADS]
Gudiksen, B.V., 2005, “DC Heating: Is it Enough?”, in Connecting Sun and Heliosphere, (Eds.) Fleck, B., Zurbuchen, T.H., Lacoste, H., Proceedings of Solar Wind 11 / SOHO 16, 12 – 17 June 2005, Whistler, Canada, vol. SP-592 of ESA Conference Proceedings, pp. 165–169, ESA Publications Division, Noordwijk. [External LinkADS]
Guhathakurta, M., Holzer, T.E., 1994, “Density structure inside a polar coronal hole”, Astrophys. J., 426, 782–786. [External LinkADS]
Guhathakurta, M., Fludra, A., Gibson, S.E., Biesecker, D., Fisher, R., 1999a, “Physical properties of a coronal hole from a coronal diagnostic spectrometer, Mauna Loa Coronagraph, and LASCO observations during the Whole Sun Month”, J. Geophys. Res., 104, 9801–9808. [External LinkADS]
Guhathakurta, M., Sittler, E., Fisher, R., McComas, D., Thompson, B., 1999b, “Coronal magnetic field topology and source of fast solar wind”, Geophys. Res. Lett., 26, 2901–2904. [External LinkADS]
Guo, Z., Crabtree, C., Chen, L., 2008, “Theory of charged particle heating by low-frequency Alfvén waves”, Phys. Plasmas, 15, 032311. [External LinkADS]
Habbal, S.R., Esser, R., Arndt, M.B., 1993, “How reliable are coronal hole temperatures deduced from observations?”, Astrophys. J., 413, 435–444. [External LinkADS]
Habbal, S.R., Woo, R., Arnaud, J., 2001, “On the Predominance of the Radial Component of the Magnetic Field in the Solar Corona”, Astrophys. J., 558, 852–858. [External LinkADS]
Habbal, S.R., Scholl, I.F., McIntosh, S.W., 2008, “Impact of Active Regions on Coronal Hole Outflows”, Astrophys. J. Lett., 683, L75–L78. [External LinkADS]
Hagenaar, H.J., Schrijver, C.J., Title, A.M., Shine, R.A., 1999, “Dispersal of Magnetic Flux in the Quiet Solar Photosphere”, Astrophys. J., 511, 932–944. [External LinkADS]
Hagenaar, H.J., DeRosa, M.L., Schrijver, C.J., 2008, “The Dependence of Ephemeral Region Emergence on Local Flux Imbalance”, Astrophys. J., 678, 541–548. [External LinkADS]
Hansteen, V.H., Leer, E., 1995, “Coronal heating, densities, and temperatures and solar wind acceleration”, J. Geophys. Res., 100, 21,577–21,594. [External LinkADS]
Hansteen, V.H., Leer, E., Holzer, T.E., 1997, “The Role of Helium in the Outer Solar Atmosphere”, Astrophys. J., 482, 498–509. [External LinkADS]
Harmon, J.K., Coles, W.A., 2005, “Modeling radio scattering and scintillation observations of the inner solar wind using oblique Alfvén/ion cyclotron waves”, J. Geophys. Res., 110, A03101. [External LinkADS]
Harra, L.K., Hara, H., Imada, S., Young, P.R., Williams, D.R., Sterling, A.C., Korendyke, C., Attrill, G.D.R., 2007, “Coronal Dimming Observed with Hinode: Outflows Related to a Coronal Mass Ejection”, Publ. Astron. Soc. Japan, 59, S801–S806. [External LinkADS]
Hartigan, P., Edwards, S., Ghandour, L., 1995, “Disk Accretion and Mass Loss from Young Stars”, Astrophys. J., 452, 736–768. [External LinkADS]
Hartmann, L., 2000, Accretion Processes in Star Formation, vol. 32 of Cambridge Astrophysics Series, Cambridge University Press, Cambridge; New York. [External LinkGoogle Books]
Harvey, J., Krieger, A.S., Timothy, A.F., Vaiana, G.S., 1975, “Comparison of Skylab X-ray and Ground-based Helium Observations”, in Skylab Solar Workshop, (Ed.) Righini, G., Prelimary Results from the S-054 X-Ray Telescope and the Correlated Ground-Based Observations, Florence, Italy, 21 – 22 March 1974, vol. 104 of Oss. Mem. Oss. Astrofis. Arcetri, pp. 50–58, Baccini & Chiappi, Florence. [External LinkADS]
Harvey, J.W., 1965, “Coronal Polar Rays and Polar Magnetic Fields”, Astrophys. J., 141, 832–833. [External LinkADS]
Harvey, J.W., Sheeley Jr, N.R., 1979, “Coronal holes and solar magnetic fields”, Space Sci. Rev., 23, 139–158. [External LinkADS]
Harvey, K.L., Recely, F., 2002, “Polar Coronal Holes During Cycles 22 and 23”, Solar Phys., 211, 31–52. [External LinkADS]
Hassler, D.M., Dammasch, I.E., Lemaire, P., Brekke, P., Curdt, W., Mason, H.E., Vial, J.-C., Wilhelm, K., 1999, “Solar Wind Outflow and the Chromospheric Magnetic Network”, Science, 283, 810–813. [External LinkDOI], [External LinkADS]
He, J.-S., Tu, C.-Y., Marsch, E., 2007, “Can the solar wind originate from a quiet Sun region?”, Astron. Astrophys., 468, 307–312. [External LinkADS]
Hefti, S., Grünwaldt, H., Ipavich, F.M., Bochsler, P., Hovestadt, D., Aellig, M.R., Hilchenbach, M., Kallenbach, R., Galvin, A.B., Geiss, J., Gliem, F., Gloeckler, G., Klecker, B., Marsch, E., Möbius, E., Neugebauer, M., Wurz, P., 1998, “Kinetic properties of solar wind minor ions and protons measured with SOHO/CELIAS”, J. Geophys. Res., 103, 29,697–29,704. [External LinkDOI], [External LinkADS]
Hick, P., Jackson, B.V., Rappoport, S., Woan, G., Slater, G., Strong, K., Uchida, Y., 1995, “Synoptic IPS and Yohkoh soft X-ray observations”, Geophys. Res. Lett., 22, 643–646. [External LinkADS]
Hoeksema, J.T., Scherrer, P.H., 1986, “An atlas of photospheric magnetic field observations and computed coronal magnetic fields: 1976–1985”, Solar Phys., 105, 205–211. [External LinkADS]
Hollweg, J.V., 1986, “Transition region, corona, and solar wind in coronal holes”, J. Geophys. Res., 91, 4111–4125. [External LinkADS]
Hollweg, J.V., 1990, “Heating of the solar corona”, Comput. Phys. Rep., 12, 205–232. [External LinkADS]
Hollweg, J.V., 2000, “Compressibility of ion cyclotron and whistler waves: Can radio measurements detect high-frequency waves of solar origin in the corona?”, J. Geophys. Res., 105, 7573–7582. [External LinkADS]
Hollweg, J.V., 2006, “Drivers of the solar wind: Then and now”, Philos. Trans. R. Soc. London, Ser. A, 364, 505–527. [External LinkADS]
Hollweg, J.V., Isenberg, P.A., 2002, “Generation of the fast solar wind: A review with emphasis on the resonant cyclotron interaction”, J. Geophys. Res., 107, 1147. [External LinkDOI], [External LinkADS]
Hollweg, J.V., Johnson, W., 1988, “Transition region, corona, and solar wind in coronal holes: Some two-fluid models”, J. Geophys. Res., 93, 9547–9554. [External LinkADS]
Hollweg, J.V., Markovskii, S.A., 2002, “Cyclotron resonances of ions with obliquely propagating waves in coronal holes and the fast solar wind”, J. Geophys. Res., 107, 1080. [External LinkDOI], [External LinkADS]
Hossain, M., Gray, P.C., Pontius, D.H., Matthaeus, W.H., Oughton, S., 1995, “Phenomenology for the decay of energy-containing eddies in homogeneous MHD turbulence”, Phys. Fluids, 7, 2886–2904. [External LinkADS]
Huber, M.C.E., Foukal, P.V., Noyes, R.W., Reeves, E.M., Schmahl, E.J., Timothy, J.G., Vernazza, J.E., Withbroe, G. L., 1974, “Extreme-ultraviolet observations of coronal holes: Initial results from Skylab”, Astrophys. J. Lett., 194, L115–L118. [External LinkADS]
Hudson, H.S., 2002, “Coronal holes as seen in soft X-rays by Yohkoh”, in From Solar Min to Max: Half a Solar Cycle with SOHO, (Ed.) Wilson, A., Proceedings of the SOHO-11 Symposium, 11 – 15 March 2002, Davos, Switzerland, vol. SP-508 of ESA Conference Proceedings, pp. 341–349, ESA Publications Division, Noordwijk. [External LinkADS]
Hundhausen, A.J., 1972, Coronal Expansion and the Solar Wind, vol. 5 of Physics and Chemistry in Space, Springer, Berlin; New York
Isenberg, P.A., 1990, “Investigations of a turbulence-driven solar wind model”, J. Geophys. Res., 95, 6437–6442. [External LinkADS]
Isenberg, P.A., 2001, “Heating of coronal holes and generation of the solar wind by ion-cyclotron resonance”, Space Sci. Rev., 95, 119–131. [External LinkDOI], [External LinkADS]
Isenberg, P.A., Vasquez, B.J., 2009, “Preferential acceleration and perpendicular heating of minor ions in a collisionless coronal hole”, Astrophys. J., 696, 591–600. [External LinkADS]
Isenberg, P.A., Lee, M.A., Hollweg, J.V., 2001, “The kinetic shell model of coronal heating and acceleration by ion-cyclotron waves: 1. Outward propagating waves”, J. Geophys. Res., 106, 5649–5660. [External LinkADS]
Janardhan, P., Tripathi, D., Mason, H.E., 2008, “The solar wind disappearance event of 11 May 1999: Source region evolution”, Astron. Astrophys., 488, L1–L4. [External LinkADS]
Janse, Å.M., Lie-Svendsen, Ø., Leer, E., 2007, “Solar wind originating in funnels: fast or slow?”, Astron. Astrophys., 474, 997–1013. [External LinkADS]
Jardine, M., van Ballegooijen, A.A., 2005, “Slingshot prominences above stellar X-ray coronae”, Mon. Not. R. Astron. Soc., 361, 1173–1179. [External LinkADS]
Jiang, Y.W., Liu, S., Petrosian, V., 2009, “Cascade and Damping of Alfvén-Cyclotron Fluctuations: Application to Solar Wind Turbulence”, Astrophys. J., 698, 163–183. [External LinkADS]
Jones, H.P., 2005, “Magnetic Fields and Flows in Open Magnetic Structures”, in Large-scale Structures and their Role in Solar Activity, (Eds.) Sankarasubramanian, K., Penn, M., Pevtsov, A., Proceedings of the 22nd Sacramento Peak Workshop, held at the National Solar Observatory, Sacramento Peak, Sunspot, New Mexico, USA, 18 – 22 October 2004, vol. 346 of ASP Conference Series, pp. 229–244, Astronomical Society of the Pacific, San Francisco. [External LinkADS]
Kahler, S., 2000, “Skylab”, in Encyclopedia of Astronomy and Astrophysics, (Ed.) Murdin, P., p. 2238, Institute of Physics Publishing, Bristol. [External LinkDOI], [External LinkADS]
Khazanov, I., Singh, N., 2007, “Ion and electron accelerations by large-scale shear Alfvén waves via cross-field instabilities”, Geophys. Res. Lett., 34, L20 111. [External LinkADS]
Klimchuk, J.A., 2006, “On Solving the Coronal Heating Problem”, Solar Phys., 234, 41–77. [External LinkADS]
Ko, Y.-K., Fisk, L.A., Gloeckler, G., Geiss, J., 1996, “Limitations on suprathermal tails of electrons in the lower solar corona”, Geophys. Res. Lett., 23, 2785–2788. [External LinkADS]
Ko, Y.-K., Fisk, L.A., Geiss, J., Gloeckler, G., Guhathakurta, M., 1997, “An Empirical Study of the Electron Temperature and Heavy Ion Velocities in the South Polar Coronal Hole”, Solar Phys., 171, 345–361. [External LinkADS]
Kohl, J.L., Cranmer, S.R. (Eds.), 1999, Coronal Holes and Solar Wind Acceleration, Proceedings of the SOHO-7 Workshop, held at Asticou Inn in Northeast Harbor, Maine, USA from 28 September – 1 October 1998, Kluwer Academic Publishers, Dordrecht; Boston. [External LinkGoogle Books]. Reprinted from Space Sci. Rev., 87, (1-2), 1999
Kohl, J.L., Withbroe, G.L., 1982, “EUV spectroscopic plasma diagnostics for the solar wind acceleration region”, Astrophys. J., 256, 263–270. [External LinkADS]
Kohl, J.L., Reeves, E.M., Kirkham, B., 1978, “The Lyman Alpha Coronagraph”, in New Instrumentation for Space Astronomy, (Eds.) van der Hucht, K.A., Viana, G., Proceedings of the 20th COSPAR Meeting, Tel Aviv, Israel, 7 – 18 June 1977, pp. 91–94, Pergamon Press, Oxford; New York. [External LinkADS]
Kohl, J.L., Weiser, H., Withbroe, G.L., Noyes, R.W., Parkinson, W.H., Reeves, E.M., Munro, R.H., MacQueen, R.M., 1980, “Measurements of coronal kinetic temperatures from 1.5 to 3 solar radii”, Astrophys. J. Lett., 241, L117–L121. [External LinkADS]
Kohl, J.L., Esser, R., Gardner, L.D., Habbal, S., Daigneau, P.S., Dennis, E.F., Nystrom, G.U., Panasyuk, A., Raymond, J.C., Smith, P.L., Strachan, L., van Ballegooijen, A.A., Noci, G., Fineschi, S., Romoli, M., Ciaravella, A., Modigliani, A., Huber, M.C.E., Antonucci, E., Benna, C., Giordano, S., Tondello, G., Nicolosi, P., Naletto, G., Pernechele, C., Spadaro, D., Poletto, G., Livi, S., von der Lühe, O., Geiss, J., Timothy, J.G., Gloeckler, G., Allegra, A., Basile, G., Brusa, R., Wood, B., Siegmund, O.H.W., Fowler, W., Fisher, R., Jhabvala, M., 1995, “The Ultraviolet Coronagraph Spectrometer for the Solar and Heliospheric Observatory”, Solar Phys., 162, 313–356. [External LinkADS]
Kohl, J.L., Noci, G., Antonucci, E., Tondello, G., Huber, M.C.E., Gardner, L.D., Nicolosi, P., Strachan, L., Fineschi, S., Raymond, J.C., Romoli, M., Spadaro, D., Panasyuk, A., Siegmund, O.H.W., Benna, C., Ciaravella, A., Cranmer, S.R., Giordano, S., Karovska, M., Martin, R., Michels, J., Modigliani, A., Naletto, G., Pernechele, C., Poletto, G., Smith, P.L., 1997, “First Results from the SOHO Ultraviolet Coronagraph Spectrometer”, Solar Phys., 175, 613–644. [External LinkADS]
Kohl, J.L., Noci, G., Antonucci, E., Tondello, G., Huber, M.C.E., Cranmer, S.R., Strachan, L., Panasyuk, A.V., Gardner, L.D., Romoli, M., Fineschi, S., Dobrzycka, D., Raymond, J.C., Nicolosi, P., Siegmund, O.H.W., Spadaro, D., Benna, C., Ciaravella, A., Giordano, S., Habbal, S.R., Karovska, M., Li, X., Martin, R., Michels, J.G., Modigliani, A., Naletto, G., O’Neal, R.H., Pernechele, C., Poletto, G., Smith, P.L., Suleiman, R.M., 1998, “UVCS/SOHO empirical determinations of anisotropic velocity distributions in the solar corona”, Astrophys. J. Lett., 501, L127–L131. [External LinkDOI], [External LinkADS]
Kohl, J.L., Esser, R., Cranmer, S.R., Fineschi, S., Gardner, L.D., Panasyuk, A.V., Strachan, L., Suleiman, R.M., Frazin, R.A., Noci, G., 1999, “EUV Spectral Line Profiles in Polar Coronal Holes from 1.3 to 3.0 R”, Astrophys. J. Lett., 510, L59–L62. [External LinkADS]
Kohl, J.L., Noci, G., Cranmer, S.R., Raymond, J.C., 2006, “Ultraviolet spectroscopy of the extended solar corona”, Astron. Astrophys. Rev., 13, 31–157. [External LinkADS]
Kojima, M., Tokumaru, M., Fujiki, K., Itoh, H., Murakami, T., Hakamada, K., 2007, “What Coronal Parameters Determine Solar Wind Speed?”, in New Solar Physics with Solar-B Mission, (Eds.) Shibata, K., Nagata, S., Sakurai, T., Proceedings of the Sixth Solar-B Science Meeting held 8 – 11 November 2005 at Kyoto, Japan, vol. 369 of ASP Conference Series, pp. 549–555, Astronomical Society of the Pacific, San Francisco. [External LinkADS]
Krieger, A.S., Timothy, A.F., Roelof, E.C., 1973, “A Coronal Hole and Its Identification as the Source of a High Velocity Solar Wind Stream”, Solar Phys., 29, 505–525. [External LinkDOI], [External LinkADS]
Krista, L.D., Gallagher, P.T., 2009, “Automated Coronal Hole Detection Using Local Intensity Thresholding Techniques”, Solar Phys., 256, 87–100. [External LinkADS]
Kwan, J., Edwards, S., Fischer, W., 2007, “Modeling T Tauri Winds from He I 10830 Å Profiles”, Astrophys. J., 657, 897–915. [External LinkADS]
Lada, C.J., 1985, “Cold outflows, energetic winds, and enigmatic jets around young stellar objects”, Annu. Rev. Astron. Astrophys., 23, 267–317. [External LinkADS]
Lamers, H.J.G.L.M., Cassinelli, J.P., 1999, Introduction to Stellar Winds, Cambridge University Press, Cambridge; New York. [External LinkGoogle Books]
Laming, J.M., 2004, “A Unified Picture of the First Ionization Potential and Inverse First Ionization Potential Effects”, Astrophys. J., 614, 1063–1072. [External LinkADS]
Laming, J.M., 2009, “Non-WKB Models of the FIP Effect: Implications for Solar Coronal Heating and the Coronal Helium and Neon Abundances”, Astrophys. J., 695, 954–969. [External LinkADS]
Laming, J.M., Lepri, S.T., 2007, “Ion Charge States in the Fast Solar Wind: New Data Analysis and Theoretical Refinements”, Astrophys. J., 660, 1642–1652. [External LinkADS]
Landi, E., 2008, “The off-disk thermal structure of a polar coronal hole”, Astrophys. J., 685, 1270–1276. [External LinkADS]
Landi, E., Cranmer, S.R., 2009, “Ion temperatures in the low solar corona: Polar coronal holes at solar minimum”, Astrophys. J., 691, 794–805. [External LinkADS]
Leamon, R.J., McIntosh, S.W., 2007, “Empirical Solar Wind Forecasting from the Chromosphere”, Astrophys. J., 659, 738–742. [External LinkADS]
Leamon, R.J., Smith, C.W., Ness, N.F., Wong, H.K., 1999, “Dissipation range dynamics: Kinetic Alfvén waves and the importance of βe”, J. Geophys. Res., 104, 22 331–22 344. [External LinkADS]
Lee, L.C., Wu, B.H., 2000, “Heating and Acceleration of Protons and Minor Ions by Fast Shocks in the Solar Corona”, Astrophys. J., 535, 1014–1026. [External LinkADS]
Leer, E., Holzer, T.E., 1980, “Energy addition in the solar wind”, J. Geophys. Res., 85, 4681–4688. [External LinkADS]
Leer, E., Holzer, T.E., Flå, T., 1982, “Acceleration of the solar wind”, Space Sci. Rev., 33, 161–200. [External LinkADS]
Lemaire, J., Pierrard, V., 2001, “Kinetic models of solar and polar winds”, Astrophys. Space Sci., 277, 169–180. [External LinkADS]
Levine, R.H., 1974, “A new theory of coronal heating”, Astrophys. J., 190, 457–466. [External LinkADS]
Levine, R.H., 1982, “Open Magnetic Fields and the Solar Cycle. I: Photospheric Sources of Open Magnetic Flux”, Solar Phys., 79, 203–230. [External LinkDOI], [External LinkADS]
Li, X., Habbal, S.R., 2001, “Damping of fast and ion cyclotron oblique waves in the multi-ion fast solar wind”, J. Geophys. Res., 106, 10 669–10 680. [External LinkADS]
Li, X., Habbal, S.R., Kohl, J., Noci, G., 1998, “The Effect of Temperature Anisotropy on Observations of Doppler Dimming and Pumping in the Inner Corona”, Astrophys. J. Lett., 501, L133–L137. [External LinkADS]
Li, X., Habbal, S.R., Hollweg, J.V., Esser, R., 1999, “Heating and cooling of protons by turbulence-driven ion-cyclotron waves in the fast solar wind”, J. Geophys. Res., 104, 2521–2535. [External LinkDOI], [External LinkADS]
Liewer, P.C., Neugebauer, M., Zurbuchen, T., 2004, “Characteristics of active-region sources of solar wind near solar maximum”, Solar Phys., 223, 209–229. [External LinkADS]
Lippincott, S.L., 1957, “Chromospheric Spicules”, Smithsonian Contrib. Astrophys., 2, 15–23. [External LinkADS]
Longcope, D., 2004, “Quantifying Magnetic Reconnection and the Heat it Generates”, in Coronal Heating, (Eds.) Walsh, R.W., Ireland, J., Danesy, D., Fleck, B., Proceedings of the SOHO-15 Workshop, 6 – 9 September 2004, St. Andrews, Scotland, UK, vol. SP-575 of ESA Conference Proceedings, pp. 198–209, ESA Publications Division, Noordwijk. [External LinkADS]
Longcope, D.W., 1996, “Topology and Current Ribbons: A Model for Current, Reconnection, and Flaring in a Complex, Evolving Corona”, Solar Phys., 169, 91–121. [External LinkDOI], [External LinkADS]
Longcope, D.W., Kankelborg, C.C., 1999, “Coronal Heating by Collision and Cancellation of Magnetic Elements”, Astrophys. J., 524, 483–495. [External LinkADS]
Lu, Q., Li, X., 2007, “Heating of ions by low-frequency Alfvén waves”, Phys. Plasmas, 14, 042303. [External LinkADS]
Luhmann, J.G., Li, Y., Arge, C.N., Gazis, P.R., Ulrich, R., 2002, “Solar cycle changes in coronal holes and space weather cycles”, J. Geophys. Res., 107, 1154. [External LinkADS]
Luo, Q., Melrose, D., 2006, “Anisotropic weak turbulence of Alfvén waves in collisionless astrophysical plasmas”, Mon. Not. R. Astron. Soc., 368, 1151–1158. [External LinkADS]
MacBride, B.T., Smith, C.W., Forman, M.A., 2008, “The Turbulent Cascade at 1 AU: Energy Transfer and the Third-Order Scaling for MHD”, Astrophys. J., 679, 1644–1660. [External LinkADS]
Malanushenko, O.V., Jones, H.P., 2004, “Analysis of He I 1083 nm Imaging Spectroscopy Using a Spectral Standard”, Solar Phys., 222, 43–60. [External LinkADS]
Mancuso, S., Raymond, J.C., Kohl, J., Ko, Y.-K., Uzzo, M., Wu, R., 2002, “UVCS/SOHO observations of a CME-driven shock: Consequences on ion heating mechanisms behind a coronal shock”, Astron. Astrophys., 383, 267–274. [External LinkADS]
Markovskii, S.A., 2001, “Generation of ion-cyclotron waves in coronal holes by a global resonant magnetohydrodynamic mode”, Astrophys. J., 557, 337–342. [External LinkDOI], [External LinkADS]
Markovskii, S.A., Hollweg, J.V., 2002, “Electron heat flux instabilities in coronal holes: Implications for ion heating”, Geophys. Res. Lett., 29, 1843. [External LinkADS]
Markovskii, S.A., Hollweg, J.V., 2004, “Intermittent Heating of the Solar Corona by Heat Flux-generated Ion Cyclotron Waves”, Astrophys. J., 609, 1112–1122. [External LinkADS]
Markovskii, S.A., Vasquez, B.J., Smith, C.W., Hollweg, J.V., 2006, “Dissipation of the Perpendicular Turbulent Cascade in the Solar Wind”, Astrophys. J., 639, 1177–1185. [External LinkADS]
Markovskii, S.A., Vasquez, B.J., Hollweg, J.V., 2009, “Proton heating by nonlinear field-aligned Alfvén waves in solar coronal holes”, Astrophys. J., 695, 1413–1420. [External LinkADS]
Marsch, E., 1999, “Solar wind models from the sun to 1 AU: Constraints by in situ and remote sensing measurements”, Space Sci. Rev., 87, 1–24. [External LinkDOI], [External LinkADS]
Marsch, E., 2005, “Importance of Kinetic Effects in Heating the Open and Closed Corona”, in Connecting Sun and Heliosphere, (Eds.) Fleck, B., Zurbuchen, T.H., Lacoste, H., Proceedings of Solar Wind 11 / SOHO 16, 12 – 17 June 2005, Whistler, Canada, vol. SP-592 of ESA Conference Proceedings, pp. 191–198, ESA Publications Division, Noordwijk. [External LinkADS]
Marsch, E., 2006, “Kinetic Physics of the Solar Corona and Solar Wind”, Living Rev. Solar Phys., 3, lrsp-2006-1. URL (cited on 1 July 2009):
http://www.livingreviews.org/lrsp-2006-1
Marsch, E., Mühlhäuser, K.-H., Schwenn, R., Rosenbauer, H., Pilipp, W.G., Neubauer, F.M., 1982, “Solar wind protons: Three-dimensional velocity distributions and derived plasma parameters measured between 0.3 and 1 AU”, J. Geophys. Res., 87, 52–72. [External LinkDOI], [External LinkADS]
Marsch, E., Tian, H., Sun, J., Curdt, W., Wiegelmann, T., 2008, “Plasma flows guided by strong magnetic fields in the solar corona”, Astrophys. J., 685, 1262–1269. [External LinkADS]
Marsden, R.G., Fleck, B., 2007, “Solar Orbiter: A Mission Update”, in The Physics of Chromospheric Plasmas, (Eds.) Heinzel, P., Dorotovič, I., Rutten, R.J., Proceedings of the conference held 9 – 13 October, 2006 at the University of Coimbra, Portugal, vol. 368 of ASP Conference Series, p. 645, Astronomical Society of the Pacific, San Francisco. [External LinkADS]
Matthaeus, W.H., Zank, G.P., Oughton, S., Mullan, D.J., Dmitruk, P., 1999, “Coronal Heating by Magnetohydrodynamic Turbulence Driven by Reflected Low-Frequency Waves”, Astrophys. J. Lett., 523, L93–L96. [External LinkADS]
Matthaeus, W.H., Dmitruk, P., Oughton, S., Mullan, D., 2003, “Turbulent dissipation in the solar wind and corona”, in Solar Wind Ten, (Eds.) Velli, M., Bruno, R., Malara, F., Proceedings of the Tenth International Solar Wind Conference, Pisa, Italy, 17 – 21 June 2002, vol. 679 of AIP Conference Proceedings, pp. 427–432, American Institute of Physics, Melville, NY. [External LinkADS]
McComas, D.J., Bame, S.J., Barker, P., Feldman, W.C., Phillips, J.L., Riley, P., Griffee, J.W., 1998, “Solar Wind Electron Proton Alpha Monitor (SWEPAM) for the Advanced Composition Explorer”, Space Sci. Rev., 86, 563–612. [External LinkADS]
McComas, D.J., Elliott, H.A., Gosling, J.T., Reisenfeld, D.B., Skoug, R.M., Goldstein, B.E., Neugebauer, M., Balogh, A., 2002, “Ulysses’ second fast-latitude scan: Complexity near solar maximum and the reformation of polar coronal holes”, Geophys. Res. Lett., 29, 1290. [External LinkADS]
McComas, D.J., Velli, M., Lewis, W.S., Acton, L.W., Balat-Pichelin, M., Bothmer, V., Dirling, R.B., Feldman, W.C., Gloeckler, G., Habbal, S.R., Hassler, D.M., Mann, I., Matthaeus, W.H., McNutt, R.L., Mewaldt, R.A., Murphy, N., Ofman, L., Sittler, E.C., Smith, C.W., Zurbuchen, T.H., 2007, “Understanding coronal heating and solar wind acceleration: Case for in situ near-Sun measurements”, Rev. Geophys., 45, RG1004. [External LinkDOI], [External LinkADS]
McIntosh, S.W., 2009, “The Inconvenient Truth About Coronal Dimmings”, Astrophys. J., 693, 1306–1309. [External LinkADS]
McIntosh, S.W., Davey, A.R., Hassler, D.M., Armstrong, J.D., Curdt, W., Wilhelm, K., Lin, G., 2007, “Observations Supporting the Role of Magnetoconvection in Energy Supply to the Quiescent Solar Atmosphere”, Astrophys. J., 654, 650–664. [External LinkADS]
Mecheri, R., Marsch, E., 2008, “Drift instabilities in the solar corona within the multi-fluid description”, Astron. Astrophys., 481, 853–860. [External LinkADS]
Medvedev, M.V., 2000, “Particle Heating by Nonlinear Alfvénic Turbulence in Advection-dominated Accretion Flows”, Astrophys. J., 541, 811–820. [External LinkADS]
Mikhailenko, V.S., Mikhailenko, V.V., Stepanov, K.N., 2008, “Ion cyclotron instabilities of parallel shear flow of collisional plasma”, Phys. Plasmas, 15, 092901. [External LinkADS]
Miller, J.A., 1908, “The Determination of the Heliocentric Position of a Certain Class of Coronal Streamers”, Astrophys. J., 27, 286–295. [External LinkADS]
Miralles, M.P., Cranmer, S.R., Kohl, J.L., 2001a, “Ultraviolet Coronagraph Spectrometer Observations of a High-Latitude Coronal Hole with High Oxygen Temperatures and the Next Solar Cycle Polarity”, Astrophys. J. Lett., 560, L193–L196. [External LinkADS]
Miralles, M.P., Cranmer, S.R., Panasyuk, A.V., Romoli, M., Kohl, J.L., 2001b, “Comparison of empirical models for polar and equatorial coronal holes”, Astrophys. J. Lett., 549, L257–L260. [External LinkADS]
Miralles, M.P., Cranmer, S.R., Kohl, J.L., 2004, “Low-latitude coronal holes during solar maximum”, Adv. Space Res., 33, 696–700. [External LinkADS]
Miralles, M.P., Cranmer, S.R., Kohl, J.L., 2006, “Coronal Hole Properties During the First Decade of UVCS/SOHO”, in SOHO-17: 10 Years of SOHO and Beyond, (Eds.) Lacoste, H., Ouwehand, L., Proceedings of the conference held 7 – 12 May 2006 at Giardini Naxos, Sicily, Italy, vol. SP-617 of ESA Conference Proceedings, pp. 15.1–15.4, ESA Publications Division, Noordwijk. [External LinkADS]
Miralles, M.P., Cranmer, S.R., Raymond, J.C., Kohl, J.L., 2007, “Multi-Instrument Searches for Polar Jets: Characterizing Jet Heating and Cooling”, conference paper. [External LinkADS]
Mitchell, S.A., 1932, “The Spectrum of the Corona”, Astrophys. J., 75, 1–33. [External LinkADS]
Moreno-Insertis, F., Galsgaard, K., Ugarte-Urra, I., 2008, “Jets in Coronal Holes: Hinode Observations and Three-dimensional Computer Modeling”, Astrophys. J. Lett., 673, L211–L214. [External LinkADS]
Morgan, H., Habbal, S.R., Rifai, S., Li, X., 2004, “Hydrogen Lyα Intensity Oscillations Observed by the Solar and Heliospheric Observatory Ultraviolet Coronagraph Spectrometer”, Astrophys. J., 605, 521–527. [External LinkADS]
Mullan, D.J., Yakovlev, O.I., 1995, “Remote Sensing of the Solar Wind Using Radio Waves: Part I”, Irish Astron. J., 22, 119–136. [External LinkADS]
Munro, R.H., Jackson, B.V., 1977, “Physical properties of a polar coronal hole from 2 to 5 solar radii”, Astrophys. J., 213, 874–886. [External LinkADS]
Munro, R.H., Withbroe, G.L., 1972, “Properties of a Coronal ‘hole’ Derived from Extreme-Ultraviolet Observations”, Astrophys. J., 176, 511–520. [External LinkADS]
Neugebauer, M., Forsyth, R.J., Galvin, A.B., Harvey, K.L., Hoeksema, J.T., Lazarus, A.J., Lepping, R.P., Linker, J.A., Mikic, Z., Steinberg, J.T., von Steiger, R., Wang, Y.-M., Wimmer-Schweingruber, R.F., 1998, “Spatial structure of the solar wind and comparisons with solar data and models”, J. Geophys. Res., 103, 14 587–14 600. [External LinkADS]
Neupert, W.M., Pizzo, V., 1974, “Solar coronal holes as sources of recurrent geomagnetic disturbances”, J. Geophys. Res., 79, 3701–3709. [External LinkADS]
Newkirk Jr, G., 1967, “Structure of the Solar Corona”, Annu. Rev. Astron. Astrophys., 5, 213–266. [External LinkADS]
Newkirk Jr, G., Harvey, J., 1968, “Coronal Polar Plumes”, Solar Phys., 3, 321–343. [External LinkADS]
Ng, C.S., Bhattacharjee, A., 2008, “A Constrained Tectonics Model for Coronal Heating”, Astrophys. J., 675, 899–905. [External LinkADS]
Noci, G., 1973, “Energy Budget in Coronal Holes”, Solar Phys., 28, 403–407. [External LinkADS]
Noci, G., Kohl, J.L., Withbroe, G.L., 1987, “Solar wind diagnostics from Doppler-enhanced scattering”, Astrophys. J., 315, 706–715. [External LinkADS]
Noci, G., Kohl, J.L., Antonucci, E., Tondello, G., Huber, M.C.E., Fineschi, S., Gardner, L.D., Naletto, G., Nicolosi, P., Raymond, J.C., Romoli, M., Spadaro, D., Siegmund, O.H.W., Benna, C., Ciaravella, A., Giordano, S., Michels, J., Modigliani, A., Panasyuk, A., Pernechele, C., Poletto, G., Smith, P.L., Strachan, L., 1997, “First results from UVCS/SOHO”, Adv. Space Res., 20, 2219–2230. [External LinkADS]
Nolte, J.T., Krieger, A.S., Timothy, A.F., Gold, R.E., Roelof, E.C., Vaiana, G., Lazarus, A.J., Sullivan, J.D., McIntosh, P.S., 1976, “Coronal holes as sources of solar wind”, Solar Phys., 46, 303–322. [External LinkADS]
Ofman, L., 2005, “MHD Waves and Heating in Coronal Holes”, Space Sci. Rev., 120, 67–94. [External LinkADS]
Ofman, L., Nakariakov, V.M., DeForest, C.E., 1999, “Slow Magnetosonic Waves in Coronal Plumes”, Astrophys. J., 514, 441–447. [External LinkDOI], [External LinkADS]
Ofman, L., Romoli, M., Poletto, G., Noci, G., Kohl, J.L., 2000, “UVCS WLC Observations of Compressional Waves in the South Polar Coronal Hole”, Astrophys. J., 529, 592–598. [External LinkDOI], [External LinkADS]
Oughton, S., Dmitruk, P., Matthaeus, W.H., 2004, “Reduced magnetohydrodynamics and parallel spectral transfer”, Phys. Plasmas, 11, 2214–2225. [External LinkADS]
Oughton, S., Dmitruk, P., Matthaeus, W.H., 2006, “A two-component phenomenology for homogeneous magnetohydrodynamic turbulence”, Phys. Rev. Lett., 13, 042306. [External LinkADS]
Pagel, A.C., Crooker, N.U., Zurbuchen, T.H., Gosling, J.T., 2004, “Correlation of solar wind entropy and oxygen ion charge state ratio”, J. Geophys. Res., 109, A01113. [External LinkDOI], [External LinkADS]
Parashar, T.N., Shay, M.A., Cassak, P.A., Matthaeus, W.H., 2009, “Kinetic dissipation and anisotropic heating in a turbulent collisionless plasma”, Phys. Plasmas, 16, 032310. [External LinkADS]
Parhi, S., Suess, S.T., Sulkanen, M., 1999, “Can Kelvin-Helmholtz instabilities of jet-like structures and plumes cause solar wind fluctuations at 1 AU?”, J. Geophys. Res., 104, 14 781–14 788. [External LinkADS]
Pariat, E., Antiochos, S.K., DeVore, C.R., 2009, “A model for solar polar jets”, Astrophys. J., 691, 61–74. [External LinkADS]
Parker, E.N., 1958a, “Dynamics of the Interplanetary Gas and Magnetic Fields”, Astrophys. J., 128, 664–676. [External LinkDOI], [External LinkADS]
Parker, E.N., 1958b, “Suprathermal particle generation in the solar corona”, Astrophys. J., 128, 677–685. [External LinkADS]
Parker, E.N., 1991, “Heating solar coronal holes”, Astrophys. J., 372, 719–727. [External LinkADS]
Parnell, C.E., 2007, “3D magnetic reconnection, flares and coronal heating”, Mem. Soc. Astron. Ital., 78, 229–235. [External LinkADS]
Pasachoff, J.M., Rušin, V., Druckmüller, M., Saniga, M., 2007, “Fine Structures in the White-Light Solar Corona at the 2006 Eclipse”, Astrophys. J., 665, 824–829. [External LinkADS]
Peter, H., Judge, P.G., 1999, “On the Doppler Shifts of Solar Ultraviolet Emission Lines”, Astrophys. J., 522, 1148–1166. [External LinkADS]
Pevtsov, A.A., Fisher, G.H., Acton, L.W., Longcope, D.W., Johns-Krull, C.M., Kankelborg, C.C., Metcalf, T.R., 2003, “The Relationship Between X-Ray Radiance and Magnetic Flux”, Astrophys. J., 598, 1387–1391. [External LinkDOI], [External LinkADS]
Piddington, J.H., 1972, “A model of the quiet solar atmosphere”, Solar Phys., 27, 402–419. [External LinkADS]
Pierrard, V., Lamy, H., 2003, “The effects of the velocity filtration mechanism on the minor ions of the corona”, Solar Phys., 216, 47–58. [External LinkADS]
Pierrard, V., Lamy, H., Lemaire, J., 2004, “Exospheric distributions of minor ions in the solar wind”, J. Geophys. Res., 109, A02118. [External LinkDOI], [External LinkADS]
Pinto, R., Grappin, R., Wang, Y.-M., Léorat, J., 2009, “Time-dependent hydrodynamical simulations of slow solar wind, coronal inflows, and polar plumes”, Astron. Astrophys., 497, 537–543. [External LinkADS]
Pneuman, G.W., 1968, “Some General Properties of Helmeted Coronal Structures”, Solar Phys., 3, 578–597. [External LinkADS]
Pneuman, G.W., 1973, “The Solar Wind and the Temperature-Density Structure of the Solar Corona”, Solar Phys., 28, 247–262. [External LinkADS]
Pneuman, G.W., 1980, “The physical structure of coronal holes: Influence of magnetic fields and coronal heating”, Astron. Astrophys., 81, 161–166. [External LinkADS]
Podesta, J.J., Bhattacharjee, A., 2009, “Theory of incompressible MHD turbulence with cross-helicity”, Phys. Rev. Lett., submitted. [External LinkarXiv:0903.5041]
Poduval, B., Zhao, X.P., 2004, “Discrepancies in the prediction of solar wind using potential field source surface model: An investigation of possible sources”, J. Geophys. Res., 109, A08102. [External LinkADS]
Poletto, G., Suess, S.T., Biesecker, D.A., Esser, R., Gloeckler, G., Ko, Y.-K., Zurbuchen, T.H., 2002, “Low-latitude solar wind during the Fall 1998 SOHO-Ulysses quadrature”, J. Geophys. Res., 107, 1300. [External LinkDOI], [External LinkADS]
Priest, E.R., Forbes, T.G., 2000, Magnetic Reconnection: MHD Theory and Applications, Cambridge University Press, Cambridge; New York. [External LinkGoogle Books]
Priest, E.R., Heyvaerts, J.F., Title, A.M., 2002, “A Flux-Tube Tectonics Model for Solar Coronal Heating Driven by the Magnetic Carpet”, Astrophys. J., 576, 533–551. [External LinkADS]
Ralchenko, Y., Feldman, U., Doschek, G.A., 2007, “Is There a High-Energy Particle Population in the Quiet Solar Corona?”, Astrophys. J., 659, 1682–1692. [External LinkADS]
Raouafi, N.-E., Solanki, S.K., 2004, “Effect of the electron density stratification on off-limb O VI line profiles: How large is the velocity distribution anisotropy in the solar corona?”, Astron. Astrophys., 427, 725–733. [External LinkADS]
Raouafi, N.-E., Solanki, S.K., 2006, “Sensitivity of solar off-limb line profiles to electron density stratification and the velocity distribution anisotropy”, Astron. Astrophys., 445, 735–745. [External LinkADS]
Raouafi, N.-E., Harvey, J.W., Solanki, S.K., 2007, “Properties of Solar Polar Coronal Plumes Constrained by Ultraviolet Coronagraph Spectrometer Data”, Astrophys. J., 658, 643–656. [External LinkADS]
Raouafi, N.-E., Petrie, G.J.D., Norton, A.A., Henney, C.J., Solanki, S.K., 2008, “Evidence for Polar Jets as Precursors of Polar Plume Formation”, Astrophys. J. Lett., 682, L137–L140. [External LinkADS]
Rappazzo, A.F., Velli, M., Einaudi, G., Dahlburg, R. B., 2008, “Nonlinear Dynamics of the Parker Scenario for Coronal Heating”, Astrophys. J., 677, 1348–1366. [External LinkADS]
Reisenfeld, D.B., McComas, D.J., Steinberg, J.T., 1999, “Evidence of a solar origin for pressure balance structures in the high-latitude solar wind”, Geophys. Res. Lett., 26, 1805–1808. [External LinkDOI], [External LinkADS]
Reisenfeld, D.B., Gary, S.P., Gosling, J.T., Steinberg, J.T., McComas, D.J., Goldstein, B.E., Neugebauer, M., 2001, “Helium energetics in the high-latitude solar wind: Ulysses observations”, J. Geophys. Res., 106, 5693–5708. [External LinkDOI], [External LinkADS]
Riley, P., Linker, J.A., Mikić, Z., 2001, “An empirically-driven global MHD model of the solar corona and inner heliosphere”, J. Geophys. Res., 106, 15 889–15 902. [External LinkADS]
Roberts, B., 2000, “Waves and Oscillations in the Corona”, Solar Phys., 193, 139–152. [External LinkADS]
Romoli, M., Frazin, R.A., Kohl, J.L., Gardner, L.D., Cranmer, S.R., Reardon, K., Fineschi, S., 2002, “In-flight Calibration of the UVCS White Light Channel”, in The Radiometric Calibration of SOHO, (Eds.) Pauluhn, A., Huber, M.C.E., von Steiger, R., vol. SR-002 of ISSI Scientific Report, pp. 181–201, ESA Publications Division, Noordwijk
Rosner, R., Tucker, W.H., Vaiana, G.S., 1978, “Dynamics of the quiescent solar corona”, Astrophys. J., 220, 643–665. [External LinkDOI], [External LinkADS]
Roussev, I.I., Gombosi, T.I., Sokolov, I.V., Velli, M., Manchester, W., DeZeeuw, D.L., Liewer, P., Tóth, G., Luhmann, J., 2003, “A Three-dimensional Model of the Solar Wind Incorporating Solar Magnetogram Observations”, Astrophys. J. Lett., 595, L57–L61. [External LinkADS]
Rowlands, J., Shapiro, V.D., Shevchenko, V.I., 1966, “Quasilinear theory of plasma cyclotron instability”, Sov. Phys. JETP, 23, 651–660
Rust, D.M., 1983, “Coronal disturbances and their terrestrial effects”, Space Sci. Rev., 34, 21–36. [External LinkADS]
Ryutova, M., Habbal, S., Woo, R., Tarbell, T., 2001, “Photospheric Network as the Energy Source for the quiet-Sun corona”, Solar Phys., 200, 213–234. [External LinkADS]
Saito, K., 1958, “Polar Rays of the Solar Corona”, Publ. Astron. Soc. Japan, 10, 49–78. [External LinkADS]
Sakao, T., Kano, R., Narukage, N., Kotoku, J., Bando, T., DeLuca, E.E., Lundquist, L.L., Tsuneta, S., Harra, L.K., Katsukawa, Y., Kubo, M., Hara, H., Matsuzaki, K., Shimojo, M., Bookbinder, J.A., Golub, L., Korreck, K.E., Su, Y., Shibasaki, K., Shimizu, T., Nakatani, I., 2007, “Continuous Plasma Outflows from the Edge of a Solar Active Region as a Possible Source of Solar Wind”, Science, 318, 1585–1588. [External LinkADS]
Sanz-Forcada, J., Dupree, A.K., 2008, “Active cool stars and He I 10830 Å: The coronal connection”, Astron. Astrophys., 488, 715–721. [External LinkADS]
Schatten, K.H., Wilcox, J.M., Ness, N.F., 1969, “A model of interplanetary and coronal magnetic fields”, Solar Phys., 6, 442–455. [External LinkDOI], [External LinkADS]
Scholl, I.F., Habbal, S.R., 2008, “Automatic Detection and Classification of Coronal Holes and Filaments Based on EUV and Magnetogram Observations of the Solar Disk”, Solar Phys., 248, 425–439. [External LinkADS]
Schrijver, C.J., Title, A.M., 2003, “The Magnetic Connection between the Solar Photosphere and the Corona”, Astrophys. J. Lett., 597, L165–L168. [External LinkDOI], [External LinkADS]
Schrijver, C.J., Title, A.M., van Ballegooijen, A.A., Hagenaar, H.J., Shine, R.A., 1997, “Sustaining the Quiet Photospheric Network: The Balance of Flux Emergence, Fragmentation, Merging, and Cancellation”, Astrophys. J., 487, 424–436. [External LinkDOI], [External LinkADS]
Schwadron, N.A., McComas, D.J., 2003, “Solar wind scaling law”, Astrophys. J., 599, 1395–1403. [External LinkDOI], [External LinkADS]
Schwadron, N.A., McComas, D.J., 2008, “The Solar Wind Power from Magnetic Flux”, Astrophys. J. Lett., 686, L33–L36. [External LinkADS]
Schwadron, N.A., McComas, D.J., DeForest, C., 2006, “Relationship between Solar Wind and Coronal Heating: Scaling Laws from Solar X-Rays”, Astrophys. J., 642, 1173–1176. [External LinkADS]
Schwartz, S.J., Feldman, W.C., Gary, S.P., 1981, “The source of proton anisotropy in the high-speed solar wind”, J. Geophys. Res., 86, 541–546. [External LinkDOI], [External LinkADS]
Schwenn, R., 2006, “Solar Wind Sources and Their Variations Over the Solar Cycle”, Space Sci. Rev., 124, 51–76. [External LinkADS]
Scudder, J.D., 1992a, “Why all stars should posses circumstellar temperature inversions”, Astrophys. J., 398, 319–349. [External LinkDOI], [External LinkADS]
Scudder, J.D., 1992b, “On the causes of temperature change in inhomogenous low-density astrophysical plasmas”, Astrophys. J., 398, 299–318. [External LinkDOI], [External LinkADS]
Scudder, J.D., 1994, “Ion and electron suprathermal tail strengths in the transition region: Support for the velocity filtration model of the corona”, Astrophys. J., 427, 446–452. [External LinkADS]
Seely, J.F., Feldman, U., Schühle, U., Wilhelm, K., Curdt, W., Lemaire, P., 1997, “Turbulent Velocities and Ion Temperatures in the Solar Corona Obtained from SUMER Line Widths”, Astrophys. J. Lett., 484, L87–L90. [External LinkADS]
Serviss, G.P., 1909, Curiosities of the Sky: A Popular Presentation of the Great Riddles and Mysteries of Astronomy, Harper & Brothers, New York; London
Shebalin, J.V., Matthaeus, W.H., Montgomery, D., 1983, “Anisotropy in MHD turbulence due to a mean magnetic field”, J. Plasma Phys., 29, 525–547. [External LinkDOI], [External LinkADS]
Sheeley Jr, N.R., Wang, Y.-M., Hawley, S H., Brueckner, G.E., Dere, K.P., Howard, R.A., Koomen, M.J., Korendyke, C.M., Michels, D.J., Paswaters, S.E., Socker, D.G., St Cyr, O.C., Wang, D., Lamy, P.L., Llebaria, A., Schwenn, R., Simnett, G.M., Plunkett, S., Biesecker, D.A., 1997, “Measurements of Flow Speeds in the Corona between 2 and 30 R”, Astrophys. J., 484, 472–478. [External LinkDOI], [External LinkADS]
Shibata, K., Nitta, N., Strong, K.T., Matsumoto, R., Yokoyama, T., Hirayama, T., Hudson, H., Ogawara, Y., 1994, “A gigantic coronal jet ejected from a compact active region in a coronal hole”, Astrophys. J. Lett., 431, L51–L53. [External LinkADS]
Shimojo, M., Narukage, N., Kano, R., Sakao, T., Tsuneta, S., Shibasaki, K., Cirtain, J.W., Lundquist, L.L., Reeves, K., Savcheva, A., 2007, “Fine Structures of Solar X-Ray Jets Observed with the X-Ray Telescope aboard Hinode”, Publ. Astron. Soc. Japan, 59, S745–S750. [External LinkADS]
Singh, N., Khazanov, G., 2004, “Numerical simulation of waves driven by plasma currents generated by low-frequency Alfvén waves in a multi-ion plasma”, J. Geophys. Res., 109, A05210. [External LinkADS]
Singh, N., Khazanov, G., Mukhter, A., 2007, “Electrostatic wave generation and transverse ion acceleration by Alfvénic wave components of broadband extremely low frequency turbulence”, J. Geophys. Res., 112, A06210. [External LinkADS]
Sittler Jr, E.C., Guhathakurta, M., 1999, “Semiempirical Two-dimensional Magnetohydrodynamic Model of the Solar Corona and Interplanetary Medium”, Astrophys. J., 523, 812–826. [External LinkADS]
Smith, C.W., Hamilton, K., Vasquez, B.J., Leamon, R.J., 2006, “Dependence of the Dissipation Range Spectrum of Interplanetary Magnetic Fluctuationson the Rate of Energy Cascade”, Astrophys. J. Lett., 645, L85–L88. [External LinkADS]
Spangler, S.R., 2002, “The Amplitude of Magnetohydrodynamic Turbulence in the Inner Solar Wind”, Astrophys. J., 576, 997–1004. [External LinkADS]
Spruit, H.C., 1981, “Motion of magnetic flux tubes in the solar convection zone and chromosphere”, Astron. Astrophys., 98, 155–160. [External LinkADS]
Spruit, H.C., 1984, “Interaction of Fluxtubes With Convection”, in Small-Scale Dynamical Processes in Quiet Stellar Atmospheres, (Ed.) Keil, S.L., Proceedings of the Conference held in Sunspot, New Mexico, USA, 25 – 29 July 1983, p. 249, National Solar Observatory, Sunspot, NM. [External LinkADS]
Stoddard, L.G., Carson, D.G., Saito, K., 1966, “Polar Rays of the Solar Corona Observed at the 1963 Eclipse”, Astrophys. J., 145, 796–799. [External LinkADS]
Strachan, L., Kohl, J.L., Weiser, H., Withbroe, G.L., Munro, R.H., 1993, “A Doppler dimming determination of coronal outflow velocity”, Astrophys. J., 412, 410–420. [External LinkADS]
Strachan, L., Suleiman, R., Panasyuk, A.V., Biesecker, D.A., Kohl, J.L., 2002, “Empirical densities, kinetic temperatures, and outflow velocities in the equatorial streamer belt at solar minimum”, Astrophys. J., 571, 1008–1014. [External LinkADS]
Strauss, H.R., 1976, “Nonlinear, three-dimensional magnetohydrodynamics of noncircular tokamaks”, Phys. Fluids, 19, 134–140. [External LinkADS]
Sturrock, P.A., Roald, C.B., Wolfson, R., 1999, “Chromospheric Magnetic Reconnection and its Implication for Coronal Heating”, Astrophys. J. Lett., 524, L75–L78. [External LinkADS]
Suess, S. T., 1979, “Models of coronal hole flows”, Space Sci. Rev., 23, 159–200. [External LinkADS]
Susino, R., Ventura, R., Spadaro, D., Vourlidas, A., Landi, E., 2008, “Physical parameters along the boundaries of a mid-latitude streamer and in its adjacent regions”, Astron. Astrophys., 488, 303–310. [External LinkADS]
Suzuki, T.K., 2006, “Forecasting Solar Wind Speeds”, Astrophys. J. Lett., 640, L75–L78. [External LinkADS]
Suzuki, T.K., Inutsuka, S.-I., 2006, “Solar winds driven by nonlinear low-frequency Alfvén waves from the photosphere: Parametric study for fast/slow winds and disappearance of solar winds”, J. Geophys. Res., 111, A06101. [External LinkADS]
Suzuki, T.K., Lazarian, A., Beresnyak, A., 2007, “Cascading of Fast-Mode Balanced and Imbalanced Turbulence”, Astrophys. J., 662, 1033–1042. [External LinkADS]
Tanskanen, E.I., Slavin, J.A., Tanskanen, A.J, Viljanen, A., Pulkkinen, T.I., Koskinen, H.E.J., Pulkkinen, A., Eastwood, J., 2005, “Magnetospheric substorms are strongly modulated by interplanetary high-speed streams”, Geophys. Res. Lett., 32, L16 104. [External LinkADS]
Tappin, S.J., Simnett, G.M., Lyons, M.A., 1999, “A determination of the outflow speeds in the lower solar wind”, Astron. Astrophys., 350, 302–309. [External LinkADS]
Telloni, D., Antonucci, E., Bruno, R., D’Amicis, R., 2009, “Persistent and Self-Similar Large-Scale Density Fluctuations in the Solar Corona”, Astrophys. J., 693, 1022–1028. [External LinkADS]
Teplitskaya, R.B., Turova, I.P., Ozhogina, O.A., 2007, “The Lower Chromosphere in a Coronal Hole”, Solar Phys., 243, 143–161. [External LinkADS]
Teriaca, L., Poletto, G., Romoli, M., Biesecker, D.A., 2003, “The nascent solar wind: Origin and acceleration”, Astrophys. J., 588, 566–577. [External LinkADS]
Thieme, K.M., Marsch, E., Schwenn, R., 1990, “Spatial structures in high-speed streams as signatures of fine structures in coronal holes”, Ann. Geophys., 8, 713–723. [External LinkADS]
Thompson, B.J., Cliver, E.W., Nitta, N., Delannée, C., Delaboudinière, J.-P., 2000, “Coronal dimmings and energetic CMEs in April-May 1998”, Geophys. Res. Lett., 27, 1431–1434. [External LinkADS]
Timothy, A.F., Krieger, A.S., Vaiana, G.S., 1975, “The structure and evolution of coronal holes”, Solar Phys., 42, 135–156. [External LinkADS]
Title, A.M., Schrijver, C.J., 1998, “The Sun’s Magnetic Carpet”, in Cool Stars, Stellar Systems, and the Sun: Tenth Cambridge Workshop, (Eds.) Donahue, R.A., Bookbinder, J.A., Proceedings of a meeting held at Cambridge, Massachusetts, 15 – 19 July 1997, vol. 154 of ASP Conference Series, pp. 345–358, Astronomical Society of the Pacific, San Francisco. [External LinkADS]
Tomczyk, S., McIntosh, S.W., 2009, “Time-Distance Seismology of the Solar Corona with CoMP”, Astrophys. J., 697, 1384–1391. [External LinkADS]
Tomczyk, S., McIntosh, S.W., Keil, S.L., Judge, P.G., Schad, T., Seeley, D.H., Edmondson, J., 2007, “Alfvén waves in the solar corona”, Science, 317, 1192–1196. [External LinkADS]
Tóth, G., Sokolov, I.V., Gombosi, T.I., Chesney, D.R., Clauer, C.R., De Zeeuw, D.L., Hansen, K.C., Kane, K.J., Manchester, W.B., Oehmke, R.C., Powell, K.G., Ridley, A.J., Roussev, I.I., Stout, Q.F., Volberg, O., Wolf, R.A., Sazykin, S., Chan, A., Yu, B., Kóta, J., 2005, “Space Weather Modeling Framework: A new tool for the space science community”, J. Geophys. Res., 110, A12226. [External LinkADS]
Tousey, R., Sandlin, G.D., Purcell, J.D., 1968, “On Some Aspects of XUV Spectroheliograms”, in Structure and Development of Solar Active Regions, (Ed.) Kiepenheuer, K.O., Proceedings of IAU Symposium 35, 4 – 8 September 1967, Budapest, Hungary, pp. 411–419, Reidel, Dordrecht. [External LinkADS]
Tsuneta, S., Ichimoto, K., Katsukawa, Y., Lites, B.W., Matsuzaki, K., Nagata, S., Orozco Suárez, D., Shimizu, T., Shimojo, M., Shine, R.A., Suematsu, Y., Suzuki, T.K., Tarbell, T.D., Title, A.M., 2008, “The Magnetic Landscape of the Sun’s Polar Region”, Astrophys. J., 688, 1374–1381. [External LinkADS]
Tu, C.-Y., Marsch, E., 1994, “On the nature of compressive fluctuations in the solar wind”, J. Geophys. Res., 99, 21 481–21 509. [External LinkADS]
Tu, C.-Y., Marsch, E., 1995, “MHD Structures, Waves and Turbulence in the Solar Wind: Observations and Theories”, Space Sci. Rev., 73, 1–210. [External LinkDOI], [External LinkADS]
Tu, C.-Y., Marsch, E., 1997, “Two-fluid model for heating of the solar corona and acceleration of the solar wind by high-frequency Alfvén waves”, Solar Phys., 171, 363–391. [External LinkDOI], [External LinkADS]
Tu, C.-Y., Marsch, E., 2001, “On cyclotron wave heating and acceleration of solar wind ions in the outer corona”, J. Geophys. Res., 106, 8233–8252. [External LinkADS]
Tu, C.-Y., Marsch, E., Wilhelm, K., Curdt, W., 1998, “Ion Temperatures in a Solar Polar Coronal Hole Observed by SUMER on SOHO”, Astrophys. J., 503, 475–482. [External LinkADS]
Tu, C.-Y., Zhou, C., Marsch, E., Xia, L.-D., Zhao, L., Wang, J.-X., Wilhelm, K., 2005, “Solar wind origin in coronal funnels”, Science, 308, 519–523. [External LinkDOI], [External LinkADS]
Usmanov, A.V., Goldstein, M.L., 2006, “A three-dimensional MHD solar wind model with pickup protons”, J. Geophys. Res., 111, A07101. [External LinkADS]
van Ballegooijen, A.A., 1994, “Energy release in stellar magnetospheres”, Space Sci. Rev., 68, 299–307. [External LinkADS]
van de Hulst, H.C., 1950, “The electron density of the solar corona”, Bull. Astron. Inst. Neth., 11, 135–150. [External LinkADS]
Vaquero, J.M., 2003, “The Solar Corona in the Eclipse of 24 June 1778”, Solar Phys., 216, 41–45. [External LinkADS]
Vasquez, B.J., Hollweg, J.V., 1996, “Formation of arc-shaped Alfvén waves and rotational discontinuities from oblique linearly polarized wave trains”, J. Geophys. Res., 101, 13,527–13,540. [External LinkADS]
Vasquez, B.J., Hollweg, J.V., 1998, “Formation of spherically polarized Alfvén waves and imbedded rotational discontinuities from a small number of entirely oblique waves”, J. Geophys. Res., 103, 335–347. [External LinkADS]
Verdini, A., Velli, M., 2007, “Alfvén waves and turbulence in the solar atmosphere and solar wind”, Astrophys. J., 662, 669–676. [External LinkADS]
Verdini, A., Velli, M., Buchlin, E., 2009, “Reflection Driven MHD Turbulence in the Solar Atmosphere and Wind”, Earth Moon Planets, 104, 121–125. [External LinkDOI], [External LinkADS]
Voitenko, Y.M., Goossens, M., 2002, “Excitation of high-frequency Alfvén waves by plasma outflows from coronal reconnection events”, Solar Phys., 206, 285–313. [External LinkDOI], [External LinkADS]
Voitenko, Y.M., Goossens, M., 2003, “Kinetic excitation mechanisms for ion-cyclotron kinetic Alfvén waves in Sun-Earth connection”, Space Sci. Rev., 107, 387–401. [External LinkADS]
Voitenko, Y.M., Goossens, M., 2004, “Cross-Field Heating of Coronal Ions by Low-Frequency Kinetic Alfvén Waves”, Astrophys. J. Lett., 605, L149–L152. [External LinkDOI], [External LinkADS]
von Steiger, R., Wimmer-Schweingruber, R.F., Geiss, J., Gloeckler, G., 1995, “Abundance variations in the solar wind”, Adv. Space Res., 15, 3–12. [External LinkADS]
Vranjes, J., Poedts, S., 2008, “Growing drift-cyclotron modes in the hot solar atmosphere”, Astron. Astrophys., 482, 653–656. [External LinkADS]
Vršnak, B., Temmer, M., Veronig, A.M., 2007, “Coronal Holes and Solar Wind High-Speed Streams: I. Forecasting the Solar Wind Parameters”, Solar Phys., 240, 315–330. [External LinkADS]
Waldmeier, M., 1955, “Ergebnisse der Zürcher Sonnenfinsternisexpedition 1954: I. Vorläufige Photometrie der Korona”, Z. Astrophys., 36, 275–292. [External LinkADS]
Waldmeier, M., 1956, “Synoptische Karten der Sonnenkorona”, Z. Astrophys., 38, 219–236. [External LinkADS]
Waldmeier, M., 1957, Die Sonnenkorona, vol. 2, Birkhäuser, Basel
Waldmeier, M., 1975, “The coronal hole at the 7 March 1970 solar eclipse”, Solar Phys., 40, 351–358. [External LinkADS]
Waldmeier, M., 1981, “Cyclic variations of the polar coronal hole”, Solar Phys., 70, 251–258. [External LinkADS]