EIS Publications in 2016
Refereed Journal Articles
The number in square brackets after the paper title is the number of citations the paper has received according to the NASA ADS Abstracts service. The links take you through to the papers' listings at NASA ADS.
- Measurements of Non-thermal Line Widths in Solar Active Regions [40]
Brooks, David H. & Warren, Harry P., ApJ, 820, 63
- Quasi-periodic Fluctuations and Chromospheric Evaporation in a Solar Flare Ribbon Observed by Hinode/EIS, IRIS, and RHESSI [32]
Brosius, Jeffrey W., Daw, Adrian N. & Inglis, Andrew R., ApJ, 830, 101
- Observational Signatures of Coronal Loop Heating and Cooling Driven by Footpoint Shuffling [39]
Dahlburg, R. B., Einaudi, G., Taylor, B. D., Ugarte-Urra, I., Warren, H. P., Rappazzo, A. F. & Velli, M., ApJ, 817, 47
- Atomic data for astrophysics: Ni XII [11]
Del Zanna, G. & Badnell, N. R., A&A, 585, A118
- The Mysterious Case of the Solar Argon Abundance near Sunspots in Flares [25]
Doschek, G. A. & Warren, H. P., ApJ, 825, 36
- Non-equilibrium ionization by a periodic electron beam. I. Synthetic coronal spectra and implications for interpretation of observations [9]
Dzifčáková, E., Dudík, J. & Mackovjak, Š., A&A, 589, A68
- A Comparison of Global Magnetic Field Skeletons and Active-Region Upflows [22]
Edwards, S. J., Parnell, C. E., Harra, L. K., Culhane, J. L. & Brooks, D. H., Solar Physics, 291, 117
- An Investigation of the Sources of Earth-directed Solar Wind during Carrington Rotation 2053 [16]
Fazakerley, A. N., Harra, L. K. & van Driel-Gesztelyi, L., ApJ, 823, 145
- Chromospheric evaporation flows and density changes deduced from Hinode/EIS during an M1.6 flare [6]
Gömöry, P., Veronig, A. M., Su, Y., Temmer, M. & Thalmann, J. K., A&A, 588, A6
- Inferring the Coronal Density Irregularity from EUV Spectra [3]
Hahn, M. & Savin, D. W., ApJ, 829, 42
- The Characteristics of Solar X-Class Flares and CMEs: A Paradigm for Stellar Superflares and Eruptions? [44]
Harra, Louise K., Schrijver, Carolus J., Janvier, Miho, Toriumi, Shin, Hudson, Hugh, Matthews, Sarah, Woods, Magnus M., Hara, Hirohisa, Guedel, Manuel, Kowalski, Adam, Osten, Rachel, Kusano, Kanya & Lueftinger, Theresa, Solar Physics, 291, 1761
- First evidence of non-Gaussian solar flare EUV spectral line profiles and accelerated non-thermal ion motion [33]
Jeffrey, Natasha L. S., Fletcher, Lyndsay & Labrosse, Nicolas, A&A, 590, A99
- Evidence for a Magnetic Flux Rope in Observations of a Solar Prominence-Cavity System [11]
Jibben, Patricia, Reeves, Katharine & Su, Yingna, Frontiers in Astronomy and Space Sciences, 3, 10
- Departure of High-temperature Iron Lines from the Equilibrium State in Flaring Solar Plasmas [7]
Kawate, T., Keenan, F. P. & Jess, D. B., ApJ, 826, 3
- Doppler Shift of the Quiet Region Measured by Meridional Scans with the EUV Imaging Spectrometer on board Hinode [0]
Kitagawa, N., Hara, H. & Yokoyama, T., ApJ, 816, 14
- Intensity Conserving Spectral Fitting [7]
Klimchuk, J. A., Patsourakos, S. & Tripathi, D., Solar Physics, 291, 55
- Correlation of Coronal Plasma Properties and Solar Magnetic Field in a Decaying Active Region [7]
Ko, Yuan-Kuen, Young, Peter R., Muglach, Karin, Warren, Harry P. & Ugarte-Urra, Ignacio, ApJ, 826, 126
- Flare-generated Shock Wave Propagation through Solar Coronal Arcade Loops and an Associated Type II Radio Burst [16]
Kumar, Pankaj, Innes, D. E. & Cho, Kyung-Suk, ApJ, 828, 28
- Magnetic Field in Atypical Prominence Structures: Bubble, Tornado, and Eruption [28]
Levens, P. J., Schmieder, B., López Ariste, A., Labrosse, N., Dalmasse, K. & Gelly, B., ApJ, 826, 164
- Coronal Magnetic Fields Derived from Simultaneous Microwave and EUV Observations and Comparison with the Potential Field Model [8]
Miyawaki, Shun, iwai, Kazumasa, Shibasaki, Kiyoto, Shiota, Daikou & Nozawa, Satoshi, ApJ, 818, 8
- Simultaneous IRIS and Hinode/EIS Observations and Modelling of the 2014 October 27 X2.0 Class Flare [55]
Polito, V., Reep, J. W., Reeves, K. K., Simões, P. J. A., Dudík, J., Del Zanna, G., Mason, H. E. & Golub, L., ApJ, 816, 89
- On the Bright Loop Top Emission in Post-eruption Arcades [2]
Sharma, Rohit, Tripathi, Durgesh, Isobe, Hiroaki & Ghosh, Avyarthana, ApJ, 823, 47
- The spectroscopic imprint of the pre-eruptive configuration resulting into two major coronal mass ejections [22]
Syntelis, P., Gontikakis, C., Patsourakos, S. & Tsinganos, K., A&A, 588, A16
- High Spatial Resolution Fe XII Observations of Solar Active Regions [26]
Testa, Paola, De Pontieu, Bart & Hansteen, Viggo, ApJ, 827, 99
- Transition Region Abundance Measurements During Impulsive Heating Events [12]
Warren, Harry P., Brooks, David H., Doschek, George A. & Feldman, Uri, ApJ, 824, 56
- Transition Region and Chromospheric Signatures of Impulsive Heating Events. I. Observations [27]
Warren, Harry P., Reep, Jeffrey W., Crump, Nicholas A. & Simões, Paulo J. A., ApJ, 829, 35
- The CHIANTI atomic database [15]
Young, P. R., Dere, K. P., Landi, E., Del Zanna, G. & Mason, H. E., Journal of Physics B Atomic Molecular Physics, 49, 074009
Author-country information
This table shows the location of the first authors of the papers given above. The information is extracted from the affiliations of the authors stored in ADS. Of the 27 papers, 27 affiliations could be extracted.
Country | First author papers |
US | 12 |
UK | 8 |
Japan | 2 |
Slovak Rep. | 1 |
Rep. Korea | 1 |
India | 1 |
Greece | 1 |
Czech Rep. | 1 |
Last revised on Fri Apr 8 16:04:39 2022
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