Suggested titles for MSU Solar Journal club
Magnetic fields:
- Evolution of Global-Scale Coronal Magnetic Field Due to
Magnetic Reconnection: the Formation of the Observed Blob Motion in
the Coronal Streamer Belt, S.T. Wu et al.,,
ApJ 545, 1101-1115.
-
A New Precise Measurement of the Coronal Magnetic Field Strength,
Haosheng Lin, et al., ApJ, v. 541:L83-L86, 2000 October 1
- Alfven Wave Model of Spicules and Coronal Heating,
Takahiro Kudoh & Kazunari Shibata, ApJ (in press)
- Tangential Field Changes in the Great Flare of 1990 May 24,
R. Cameron and I. Sammis, ApJ. v. 525, pp. L61-L64.
Dynamo:
- Multiperiodicity, chaos, and intermittency in a reduced model
of the solar cycle, Charbonneau, Sol. Phys. 2001,
in press; see Piet.
- Persistent 22-year cycle in sunspot activity:
Evidence for a relic solar magnetic field,
Mursula, K.; Usoskin, I. G.; Kovaltsov, G. A.,
Sol. Phys., v. 198, #1, pp. 51 - 56.
- Pumping of Magnetic Fields by Turbulent Penetrative Convection,
Tobias et al. ApJ 502, L177
[Dynamo action at the base of the convection zone.]
- Stochastic Fluctuations in a Babcock-Leighton Model of
the Solar Dynamo, Charbonneau and Dikpati, ApJ,
v.543, pp.1027-1043.
- Evolution of the Sun's large-scale magnetic field
since the Maunder Minimum, Solanki, Schussler, and Fligge,
Nature, v.408, pp. 445-447.
-- avail in postscript
and pdf
Prominences & Filaments:
- Observational Interpretation of an Active Prominence
on 1999 May 1, Holly R. Gilbert et al.,, ApJ 549
1221-1230.
- Filament Eruptions Near Emerging Bipoles, Wang & Sheeley,
v.510, #2, pt.2, pp. L157-160
- Model Prediction for an Observed Filament,
Aulanier, Srivastava, and Martin, ApJ, v.543, pp. 447-456.
Flux tubes:
- The Zigzag Path of Buoyant Magnetic Tubes and
the Generation of Vorticity Along Their Periphery,
T. Emonet et al., ApJ 549, 1212-1220.
The Photosphere & Flows:
- Simulations of Solar Granulation. I. General Properties,
R. F. Stein & A. Nordlund,
ApJ v. 499, 914
- Dynamical Interaction of Solar Magnetic Elements and Granular
Convection: Results of a Numerical Simulation,
O. Steiner, U. Grossmann-Doerth, M. Knoelker, & M. Schussler,
ApJ v. 495, 468
- Anomalous Diffusion of Solar Magnetic Elements,
A. C. Cadavid, J. K. Lawrence, and A. A. Ruzmaikin, ApJ v. 521, Page 844
- Phenomena in an emerging active region.
II. Properties of the dynamics small-scale structure,
Strous & Zwaan, ApJ 527, 435.
Intrumentation & Analysis:
Flares, CMEs, and Jets:
- The Coronal Mass Ejection of 1998 April 20: Direct
Imaging at Radio Wavelengths,
T. S. Bastian, et al., ApJ 558, L65-L69.
- One-Dimensional and Pseudo Two-Dimensional Hydrodynamic
Simulations of Solar X-ray Jets, by Shimojo, Shibata,
Yokoyama and Hori -- preprint rack in IPL
- Magnetic Energy Release and Transients
in the Solar Flare of 2000 July 14, Kosovichev and Zharkova,
ApJ 550, L105-L108.
- CMEs [sic] initiation: models and observations,
S.T. Wu et al.,
Journal of Atmospheric and Solar-Terrestrial Physics, 62 1489-1498.
[see www.elsevier.nl/locate/jastp, or Canfield]
- Nonthermal Velocity Evolution in the Precursor
Phase of a Solar Flare, Harra et al.,, ApJ 549 L245-L248.
- Large Doppler Shifts in X-Ray Plasma:
An Explosive Start to CME, D.E. Innes et al.,
ApJ 549 L249-L252.
- Location of the source of soft X-ray non-thermal line broadenings
in a solar flare, A&A 364 859-872.
- A Model for Hard X-Ray Emission from the Top of Flaring Loops,
L. Fletcher & P. C. H. Martens,
ApJ v. 505, 418 -- [Basic flare hydro and X-ray line
formation.]
- Single and Multiple Solar Flare Loops: Hydrodynamics and
Ca XIX Resonance Line Emission,
Kuniko Hori, Takaaki Yokoyama, Takeo Kosugi, & Kazunari Shibata,
ApJ v. 500, 492
- Analyzing energetics of explosive events observed
by SUMER on SOHO,Winebarger et al., ApJ 526, 471
- The electron temperature and fine structure of soft X-ray
solar flares, G. Doschek, ApJ 527, 426
- Active Region EUV Transient Brightenings
First Results by EIT of SOHO JOP 80,
D. Berghmans and F. Clette, Sol. Phys., v. 186, pp. 207-229 (1999).
Corona:
- The Energy Supply to X-ray Bright Points,
Solar Physics, v. 196, #1, p. 137-156 (2000).
- Analysis and comparison of loop structures imaged with NIXT and
Yohkoh/SXT, Di Matteo, Reale, Peres & Golub (A&A preprint)
- Quasi-Separatrix Layers in a Reduced Magnetohydrodynamic
Model of a Coronal Loop, L. Milano, et al., ApJ. v. 521, pp. 889-897
- Topology of Magnetic Field and Coronal Heating in Solar Active
Regions. II. The Role of Quasi-Separatrix layers, Wang, Yan,
Sakurai, and Zhang, Sol. Phys., v.197, pp. 263-273.
- Observation and modeling of the solar transition region.
II. Identification of new classes of solutions of coronal loop models,
Oluseyi et al.ApJ 527, 992.
Solar wind:
- Elemental Fractionation in the Slow Solar Wind,
N.A. Schwadron, et al., ApJ. v. 521, pp.859-867
Solar interior & helioseismology:
- Shear turbulence beneath the solar tachocline,
A&A 364 876-878
- Chromatic Holography of the Sunspot Acoustic Environment,
C. Lindsey and D. C. Braun, ApJ v. 510 Page 494
- The Rotation of the Solar Core Inferred by Genetic
Forward Modeling,
P. Charbonneau, S. Tomczyk, J. Schou, & M. J. Thompson,
ApJ v. 496, 1015
- Standard Solar Models in the Light of New Helioseismic
Constraints: I. The Solar Core, A. S. Brun et al.,
ApJ v. 506, 913-925 [What every solar physicist should know about
helioseismology tells us about the physics of the solar core.]
- Acoutsic Imaging in Helioseismology
Dean-Yi Chou et al., ApJ v. 514, 979-988
[Includes nice section on basic principle.]
Click here for the SJC homepage.
Please send suggested titles or comments about this page to
Brian Welsch.
Links to Abstract/Journals' sites: