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611 results on '"Doschek, G. A."'

1. The impact of a filament eruption on nearby high-lying cool loops

Author

Harra, L. K., Matthews, S. A., Long, D. M., Doschek, G. A., and De Pontieu, B.

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

The first spectroscopic observations of cool Mg II loops above the solar limb observed by NASA's Interface Region Imaging Spectrograph ({\it IRIS}; \cite{IRIS}) are presented. During the observation period IRIS is pointed off-limb allowing the observation of high-lying loops, which reach over 70~Mm in height. Low-lying cool loops were observed by the {\it IRIS} slit jaw camera for the entire 4 hour observing window. There is no evidence of a central reversal in the line profiles and the Mg II h/k ratio is approximately 2. The Mg II spectral lines show evidence of complex dynamics in the loops with Doppler velocities reaching $\pm$ 40 km/s. The complex motions seen indicate the presence of multiple threads in the loops and separate blobs. Towards the end of the observing period, a filament eruption occurs that forms the core of a coronal mass ejection. As the filament erupts, it impacts these high-lying loops, temporarily impeding these complex flows, most likely due to compression. This causes the plasma motions in the loops become blue-shifted and then red-shifted. The plasma motions are seen before the loops themselves start to oscillate as they reach equilibrium following the impact. The ratio of the Mg h/k lines also increases following the impact of the filament.

Published
2014
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2. Solar Eruptive Events (SEE) 2020 Mission Concept

Author

Lin, R. P., Caspi, A., Krucker, S., Hudson, H., Hurford, G., Bandler, S., Christe, S., Davila, J., Dennis, B., Holman, G., Milligan, R., Shih, A. Y., Kahler, S., Kontar, E., Wiedenbeck, M., Cirtain, J., Doschek, G., Share, G. H., Vourlidas, A., Raymond, J., Smith, D. M., McConnell, M., and Emslie, G.

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

Major solar eruptive events (SEEs), consisting of both a large flare and a near simultaneous large fast coronal mass ejection (CME), are the most powerful explosions and also the most powerful and energetic particle accelerators in the solar system, producing solar energetic particles (SEPs) up to tens of GeV for ions and hundreds of MeV for electrons. The intense fluxes of escaping SEPs are a major hazard for humans in space and for spacecraft. Furthermore, the solar plasma ejected at high speed in the fast CME completely restructures the interplanetary medium (IPM) - major SEEs therefore produce the most extreme space weather in geospace, the interplanetary medium, and at other planets. Thus, understanding the flare/CME energy release process(es) and the related particle acceleration processes are major goals in Heliophysics. To make the next major breakthroughs, we propose a new mission concept, SEE 2020, a single spacecraft with a complement of advanced new instruments that focus directly on the coronal energy release and particle acceleration sites, and provide the detailed diagnostics of the magnetic fields, plasmas, mass motions, and energetic particles required to understand the fundamental physical processes involved., Comment: White Paper submitted to the Heliophysics Decadal Survey. Available as LinRobertP-SH.pdf on p. 7 at http://www8.nationalacademies.org/SSBSurvey/publicviewHeliophysics.aspx

Published
2013

3. Science Objectives for an X-Ray Microcalorimeter Observing the Sun

Author

Laming, J. Martin, Adams, J., Alexander, D., Aschwanden, M, Bailey, C., Bandler, S., Bookbinder, J., Bradshaw, S., Brickhouse, N., Chervenak, J., Christe, S., Cirtain, J., Cranmer, S., Deiker, S., DeLuca, E., Del Zanna, G., Dennis, B., Doschek, G., Eckart, M., Fludra, A., Finkbeiner, F., Grigis, P., Harrison, R., Ji, L., Kankelborg, C., Kashyap, V., Kelly, D., Kelley, R., Kilbourne, C., Klimchuk, J., Ko, Y. -K., Landi, E., Linton, M., Longcope, D., Lukin, V., Mariska, J., Martinez-Galarce, D., Mason, H., McKenzie, D., Osten, R., Peres, G., Pevtsov, A., Porter, K. Phillips F. S., Rabin, D., Rakowski, C., Raymond, J., Reale, F., Reeves, K., Sadleir, J., Savin, D., Schmelz, J., Smith, R. K., Smith, S., Stern, R., Sylwester, J., Tripathi, D., Ugarte-Urra, I., Young, P., Warren, H., and Wood, B.

Subjects
Astrophysics - Solar and Stellar Astrophysics
Abstract

We present the science case for a broadband X-ray imager with high-resolution spectroscopy, including simulations of X-ray spectral diagnostics of both active regions and solar flares. This is part of a trilogy of white papers discussing science, instrument (Bandler et al. 2010), and missions (Bookbinder et al. 2010) to exploit major advances recently made in transition-edge sensor (TES) detector technology that enable resolution better than 2 eV in an array that can handle high count rates. Combined with a modest X-ray mirror, this instrument would combine arcsecondscale imaging with high-resolution spectra over a field of view sufficiently large for the study of active regions and flares, enabling a wide range of studies such as the detection of microheating in active regions, ion-resolved velocity flows, and the presence of non-thermal electrons in hot plasmas. It would also enable more direct comparisons between solar and stellar soft X-ray spectra, a waveband in which (unusually) we currently have much better stellar data than we do of the Sun., Comment: 7 pages, white paper submitted the Solar and Heliophsyics Decadal Survey

Published
2010

4. Flows and Non-thermal Velocities in Solar Active Regions Observed with the Extreme-ultraviolet Imaging Spectrometer on Hinode: A Tracer of Active Region Sources of Heliospheric Magnetic Fields?

Author

Doschek, G. A., Warren, H. P., Mariska, J. T., Muglach, K., Culhane, J. L., Hara, H., and Watanabe, T

Subjects
Astrophysics
Abstract

From Doppler velocity maps of active regions constructed from spectra obtained by the Extreme-ultraviolet Imaging Spectrometer (EIS) on the Hinode spacecraft we observe large areas of outflow (20-50 km/s) that can persist for at least a day. These outflows occur in areas of active regions that are faint in coronal spectral lines formed at typical quiet Sun and active region temperatures. The outflows are positively correlated with non-thermal velocities in coronal plasmas. The bulk mass motions and non-thermal velocities are derived from spectral line centroids and line widths, mostly from a strong line of Fe XII at 195.12 Angstroms. The electron temperature of the outflow regions estimated from an Fe XIII to Fe XII line intensity ratio is about 1.2-1.4 MK. The electron density of the outflow regions derived from a density sensitive intensity ratio of Fe XII lines is rather low for an active region. Most regions average around 7E10+8 cm(-3), but there are variations on pixel spatial scales of about a factor of 4. We discuss results in detail for two active regions observed by EIS. Images of active regions in line intensity, line width, and line centroid are obtained by rastering the regions. We also discuss data from the active regions obtained from other orbiting spacecraft that support the conclusions obtained from analysis of the EIS spectra. The locations of the flows in the active regions with respect to the longitudinal photospheric magnetic fields suggest that these regions might be tracers of long loops and/or open magnetic fields that extend into the heliosphere, and thus the flows could possibly contribute significantly to the solar wind., Comment: one tex file, 11 postscript figure files

Published
2008
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5. Strongly Blueshifted Phenomena Observed with {\it Hinode}/EIS in the 2006 December 13 Solar Flare

Author

Asai, Ayumi, Hara, Hirohisa, Watanabe, Tetsuya, Imada, Shinsuke, Sakao, Taro, Narukage, Noriyuki, Culhane, J. L., and Doschek, G. A.

Subjects
Astrophysics
Abstract

We present a detailed examination of strongly blueshifted emission lines observed with the EUV Imaging Spectrometer on board the {\it Hinode} satellite. We found two kinds of blueshifted phenomenon associated with the X3.4 flare that occurred on 2006 December 13. One was related to a plasmoid ejection seen in soft X-rays. It was very bright in all the lines used for the observations. The other was associated with the faint arc-shaped ejection seen in soft X-rays. The soft X-ray ejection is thought to be an MHD fast-mode shock wave. This is therefore the first spectroscopic observation of an MHD fast-mode shock wave associated with a flare., Comment: 18 pages, 1 table, 6 figures. ApJ, accepted

Published
2008
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6. Transition region features observed with Hinode/EIS

Author

Young, P. R., Del Zanna, G., Mason, H. E., Doschek, G. A., Culhane, J. L., and Hara, H.

Subjects
Astrophysics
Abstract

Two types of active region feature prominent at transition region temperatures are identified in Hinode/EIS data of AR 10938 taken on 2007 January 20. The footpoints of 1 MK TRACE loops are shown to emit strongly in emission lines formed at log T=5.4-5.8, allowing the temperature increase along the footpoints to be clearly seen. A density diagnostic of Mg VII yields the density in the footpoints, with one loop showing a decrease from 3x10^9 cm^-3 at the base to 1.5x10^9 cm^-3 at a projected height of 20 Mm. The second feature is a compact active region transition region brightening which is particularly intense in O V emission (log T=5.4) but also has a signature at temperatures up to log T=6.3. The Mg VII diagnostic gives a density of 4x10^10 cm^-3, and emission lines of Mg VI and Mg VII show line profiles broadened by 50 km/s and wings extending beyond 200 km/s. Continuum emission in the short wavelength band is also found to be enhanced, and is suggested to be free-bound emission from recombination onto He^+., Comment: 11 pages, 9 figures, submitted to PASJ Hinode first results issue

Published
2007
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7. EUV emission lines and diagnostics observed with Hinode/EIS

Author

Young, P. R., Del Zanna, G., Mason, H. E., Dere, K. P., Landi, E., Landini, M., Doschek, G. A., Brown, C. M., Culhane, J. L., Harra, L. K., Watanabe, T., and Hara, H.

Subjects
Astrophysics
Abstract

Quiet Sun and active region spectra from the Hinode/EIS instrument are presented, and the strongest lines from different temperature regions discussed. A list of emission lines recommended to be included in EIS observation studies is presented based on analysis of blending and diagnostic potential using the CHIANTI atomic database. In addition we identify the most useful density diagnostics from the ions covered by EIS., Comment: 14 pages, 3 figures, submitted to PASJ Hinode first results issue

Published
2007
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8. The EUV Imaging Spectrometer for Hinode

Author

Culhane, J. L., Harra, L. K., James, A. M., Al-Janabi, K., Bradley, L. J., Chaudry, R. A., Rees, K., Tandy, J. A., Thomas, P., Whillock, M. C. R., Winter, B., Doschek, G. A., Korendyke, C. M., Brown, C. M., Myers, S., Mariska, J., Seely, J., Lang, J., Kent, B. J., Shaughnessy, B. M., Young, P. R., Simnett, G. M., Castelli, C. M., Mahmoud, S., Mapson-Menard, H., Probyn, B. J., Thomas, R. J., Davila, J., Dere, K., Windt, D., Shea, J., Hagood, R., Moye, R., Hara, H., Watanabe, T., Matsuzaki, K., Kosugi, T., Hansteen, V., Wikstol, Ø., and Sakurai, Takashi, editor

Published
2008
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9. The Hinode (Solar-B) Mission: An Overview

Author

Kosugi, T., Matsuzaki, K., Sakao, T., Shimizu, T., Sone, Y., Tachikawa, S., Hashimoto, T., Minesugi, K., Ohnishi, A., Yamada, T., Tsuneta, S., Hara, H., Ichimoto, K., Suematsu, Y., Shimojo, M., Watanabe, T., Shimada, S., Davis, J. M., Hill, L. D., Owens, J. K., Title, A. M., Culhane, J. L., Harra, L. K., Doschek, G. A., Golub, L., and Sakurai, Takashi, editor

Published
2008
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10. Hinode: A Decade of Success in Capturing Solar Activity

Author

Savage, S, Elrod, S, Deluca, E, Doschek, G, and Tarbell, T

Subjects
Solar Physics
Abstract

As the present solar cycle passes into its minimum phase, the Hinode mission marks its tenth year of investigating solar activity. Hinode's decade of successful observations have provided us with immeasurable insight into the solar processes that invoke space weather and thereby affect the interplanetary environment in which we reside. The mission's complementary suite of instruments allows us to probe transient, high energy events alongside long-term, cycle-dependent phenomena from magnetic fields at the Sun's surface out to highly thermalized coronal plasma enveloping active regions (ARs). These rich data sets have already changed the face of solar physics and will continue to provoke exciting research as new observational paradigms are pursued. Hinode was launched as part of the Science Mission Directorate's (SMD) Solar Terrestrial Probes Program in 2006. It is a sophisticated spacecraft equipped with a Solar Optical Telescope (SOT), an Extreme-ultraviolet Imaging Spectrometer (EIS), and an X-Ray Telescope (XRT) (see x 4). With high resolution and sensitivity, Hinode serves as a microscope for the Sun, providing us with unique capabilities for observing magnetic fields near the smallest scales achievable, while also rendering full-Sun coronal context in the highest thermal regimes. The 2014 NASA SMD strategic goals objective to "Understand the Sun and its interactions with the Earth and the solar system, including space weather" forms the basis of three underlying Heliophysics Science Goals. While Hinode relates to all three, the observatory primarily addresses: Explore the physical processes in the space environment from the Sun to the Earth and through the solar system. Within the NASA National Research Council (NRC) Decadal Survey Priorities, Hinode targets: (a) Determine the origins of the Sun's activity and predict the variations of the space environment and (d) Discover and characterize fundamental processes that occur both within the heliosphere and throughout the universe. In response to the 2012 NRC Decadal Survey Science Challenges and 2014 Heliophysics Roadmap Research Focus Areas, the Hinode mission has set forth four Prioritized Science Goals (PSGs): (a) Study the sources and evolution of highly energetic dynamic events; (b) Characterize cross-scale magnetic field topology and stability; (c) Trace mass and energy flow from the photosphere to the corona; and (d) Continue long term synoptic support to quantify cycle variability.

Published
2017

13. Heating and flows in flares

Author

Doschek, G. A., Araki, H., editor, Ehlers, J., editor, Hepp, K., editor, Jaffe, R. L., editor, Kippenhahn, R., editor, Ruelle, D., editor, Weidenmüller, H. A., editor, Wess, J., editor, Zittartz, J., editor, Beiglböck, W., editor, Uchida, Yutaka, editor, Canfield, Richard C., editor, Watanabe, Tetsuya, editor, and Hiei, Eijiro, editor

Published
1991
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14. The Bragg Crystal Spectrometer for SOLAR-A

Author

Culhane, J. L., Hiei, E., Doschek, G. A., Cruise, A. M., Ogawara, Y., Uchida, Y., Bentley, R. D., Brown, C. M., Lang, J., Watanabe, T., Bowles, J. A., Deslattes, R. D., Feldman, U., Fludra, A., Guttridge, P., Henins, A., Lapington, J., Magraw, J., Mariska, J. T., Payne, J., Phillips, K. J. H., Sheather, P., Slater, K., Tanaka, K., Towndrow, E., Trow, M. W., Yamaguchi, A., Švestka, Zdeněk, editor, and Uchida, Yutaka, editor

Published
1991
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15. The Yohkoh Mission for High-Energy Solar Physics

Author

Acton, L., Tsuneta, S., Ogawara, Y., Bentley, R., Bruner, M., Canfield, R., Culhane, L., Doschek, G., Hiei, E., Hirayama, T., Hudson, H., Kosugi, T., Lang, J., Lemen, J., Nishimura, J., Makishima, K., Uchida, Y., and Watanabe, T.

Published
1992

17. The Hinode (Solar-B) Mission: An Overview

Author

Kosugi, T., Matsuzaki, K., Sakao, T., Shimizu, T., Sone, Y., Tachikawa, S., Hashimoto, T., Minesugi, K., Ohnishi, A., Yamada, T., Tsuneta, S., Hara, H., Ichimoto, K., Suematsu, Y., Shimojo, M., Watanabe, T., Shimada, S., Davis, J. M., Hill, L. D., Owens, J. K., Title, A. M., Culhane, J. L., Harra, L. K., Doschek, G. A., and Golub, L.

Published
2007
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18. The EUV Imaging Spectrometer for Hinode

Author

Culhane, J. L., Harra, L. K., James, A. M., Al-Janabi, K., Bradley, L. J., Chaudry, R. A., Rees, K., Tandy, J. A., Thomas, P., Whillock, M. C. R., Winter, B., Doschek, G. A., Korendyke, C. M., Brown, C. M., Myers, S., Mariska, J., Seely, J., Lang, J., Kent, B. J., Shaughnessy, B. M., Young, P. R., Simnett, G. M., Castelli, C. M., Mahmoud, S., Mapson-Menard, H., Probyn, B. J., Thomas, R. J., Davila, J., Dere, K., Windt, D., Shea, J., Hagood, R., Moye, R., Hara, H., Watanabe, T., Matsuzaki, K., Kosugi, T., Hansteen, V., and Wikstol, Ø.

Published
2007
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21. The Hinode(Solar-B)Mission: An Overview

Author

Kosugi, T, Matsuzaki, K, Sakao, T, Shimizu, T, Sone, Y, Tachikawa, S, Minesugi, K, Ohnishi, A, Yamada, T, Tsuneta, S, Hara, H, Ichimoto, K, Suematsu, Y, Shimojo, M, Watanabe, T, Shimada, S, Davis, J. M, Hill, L. D, Owens, J. K, Title, A. M, Culhane, J. L, Harra, L. K, Doschek, G. A, and Golub, L

Subjects
Astronomy
Abstract

The Hinode satellite (formerly Solar-B) of the Japan Aerospace Exploration Agency's Institute of Space and Astronautical Science (ISAS/JAXA) was successfully launched in September 2006. As the successor to the Yohkoh mission, it aims to understand how magnetic energy is transferred from the photosphere to the upper atmospheres and resulting in explosive energy releases. Hinode is an observatory style mission, with all the instruments being designed and built to work together to address the science aims. There are three instruments onboard: the Solar Optical Telescope (SOT), the EUV Imaging Spectrometer (EIS), and the X-ray Telescope (XRT). This paper overviews the mission, including the satellite, the scientific payload and operations. It will conclude with discussions on how the international science community can participate in the analysis of the mission data.

Published
2007

22. Temperature Measurements in the Solar Transition Region Using N III Line Intensity Ratios

Author

Doron, R, Doschek, G. A, Laming, J. M, Feldman, U, and Bhatia, A. K

Subjects
Solar Physics
Abstract

UV emission from B-like N and O ions a rather rare opportunity for recording spectral lines in a narrow wavelength range that can potentially be used to derive temperatures relevant to the solar transition region. In these ions, the line intensity ratios of the type (2s2p(sup 2) - 2p(sup 3)) / (2s(sup 2)2p - 2s2p(sup 2)) are very sensitive to the electron temperature. Additionally, the lines involving the ratios fall within a range of only - 12 A; in N III the lines fall in the 980 - 992 A range and in O IV in the 780 - 791 A range. In this work, we explore the use of these atomic systems, primarily in N III, for temperature diagnostics of the transition region by analyzing UV spectra obtained by the Solar Ultraviolet Measurements of Emitted Radiation (SUMER) spectrometer flown on the Solar and Heliospheric Observatory (SOHO). The N III temperature-sensitive line ratios are measured in more than 60 observations. Most of the measured ratios correspond to temperatures in the range 5.7x10(exp 4) - 6.7x10(exp 4) K. This range is considerably lower than the calculated temperature of maximum abundance of N III, which is approx. 7.6x10(exp 4) K. Detailed analysis of the spectra further indicates that the measured ratios are probably somewhat overestimated due to resonant scattering effects in the 2s(sup 2)2p - 2s2p(sup 2) lines and small blends in the 2s2p(sup 2) - 2p3 lines. Actual lower ratios would only increase the disagreement between the ionization balance calculations and present temperature measurements based on a collisional excitation model. In the case of the O IV spectra, we determined that due to the close proximity in wavelength of the weak line (2s2p(sup 2)-2p3 transitions) to a strong Ne VIII line, sufficiently accurate ratio measurements cannot be obtained. Subject headings: atomic data --- atomic processes --- Sun: transition region --- Sun: U V radiation --- techniques: spectroscopic

Published
2003

23. The Solar-A Bragg crystal spectrometer

Author

Culhane, J. L., Hiei, E., Bentley, R. D., Brown, C. M., Doschek, G. A., Feldman, U., Lang, J., Watanabe, T., Araki, H., editor, Ehlers, J., editor, Hepp, K., editor, Jaffe, R. L., editor, Kippenhahn, R., editor, Ruelle, D., editor, Weidenmüller, H. A., editor, Wess, J., editor, Zittartz, J., editor, Beiglböck, W., editor, Uchida, Yutaka, editor, Canfield, Richard C., editor, Watanabe, Tetsuya, editor, and Hiei, Eijiro, editor

Published
1991
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26. The bright knots at the tops of soft X-ray flare loops: Quantitative results from Yohkoh

Author

Doschek, G. A, Strong, K. T, and Tsuneta, S

Subjects
Solar Physics
Abstract

Soft X-ray Telescope (SXT) observations from the Japanese Yohkoh spacecraft have shown that confined bright regions are common features at the tops of flare loops throughout most of the duration of the flares. In this paper we present quantitative results for these flare knots, in relation to other flare regions, for four relatively 'simple' flares. Emission measure distributions, electron temperatures, and electron densities are derived from SXT and Yohkoh Bragg Crystal Spectrometer (BCS) observations. The four flares selected are dominated by what appear to be single-loop structures, with bright knots at the loop tops. The flares are neither long-duration nor impulsive events. The spatial distributions of brightness and emission measure in the flares are found to be quite similar for all four events, even though there are significant differences in dynamical behavior between at least two of the events. Temperatures and densities calculated for these flares are consistent with previous results from many solar experiments. An investigation of intensity correlations between adjacent pixels at the tops of the loops suggests the existence of local disturbances in the magnetic loops that occur on spatial scales less than the radii of the loops.

Published
1995
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27. The determination of electron densities in the solar atmosphere from the 1718.56 A/1486.51 A emission-line ratio in N IV

Author

Keenan, F. P, Harra, L. K, Doschek, G. A, and Cook, J. W

Subjects
Solar Physics
Abstract

The theoretical electron density sensitive emission-line ratio R = I(1718.56 a)/I(1486.51 A) in N IV is presented for a range of N(sub e)(approximately equals 10(exp 10) - 10(exp 12)/cu cm) applicable to higher density solar plasmas, such as active regions. A comparison of these calculations with the observed values of R of several solar features obtained with the Naval Research Laboratory's S082B spectrograph on board Skylab reveals general agreement between theory and observation at pointings just above the limb, where line blends with N IV 1718.56 A should be insignificant, which provides experimental support for the accuracy of the line ratio calculations.

Published
1994
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28. The 1991 November 9 flare at 03.2 UT: Observations from Yohkoh

Author

Doschek, G. A, Mariska, J. T, Strong, K. T, Bentley, R. D, Brown, C. M, Culhane, J. L, Lang, J, Sterling, A. C, and Watanabe, T

Subjects
Astrophysics
Abstract

We discuss X-ray spectra and soft X-ray images of an M1.9 flare that occurred on 1991 November 9 near 03.2 UT. These data were obtained with instrumentation on the Japanese Yohkoh spacecraft. They cover the entire rise phase and peak flare emission, and the beginning of the decay phase. We determine the dynamics, temperature, and emission measure of the flare as inferred from the X-ray line profiles of resonance lines of Fe XXV, Ca XIX, and S XV. We discuss the morphology of the flare as inferred from the soft X-ray images. The November 9 flare is atypical in that a stronger than usual blueshifted emission component (relative to the stationary component) is observed for the resonance lines at flare onset. We discuss several methods for deconvolving the blueshifted component from the stationary component. The X-ray line profiles are consistent with predictions of numerical simulations of chromospheric evaporation. The X-ray images reveal a flare with a complicated loop geometry that is not fully understood. Many of the features in the images are moving upwards at speeds ranging from a few km/s to about 800 km/s. The blueshifted emission begins near the onset of hard X-ray emission, implying that particle acceleration and upflowing plasma have a common energy source.

Published
1994
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29. The correlation of solar flare hard X-ray bursts with Doppler blueshifted soft X-ray flare emission

Author

Bentley, R. D, Doschek, G. A, Simnett, G. M, Rilee, M. L, Mariska, J. T, Culhane, J. L, Kosugi, T, and Watanabe, T

Subjects
Astrophysics
Abstract

We have investigated the temporal correlation between hard X-ray bursts and the intensity of Doppler blueshifted soft X-ray spectral line emission. We find a strong correlation for many events that have intense blueshifted spectral signatures and some correlation in events with modest blueshifts. The onset of hard X-rays frequently coincides to within a few seconds with the onset of blueshifted emission. The peak intensity of blueshifted emission is frequently close in time to the peak of the hard X-ray emission. Decay rates of the blueshifted and hard X-ray emission are similar, with the decay of the blueshifted emission tending to lag behind the hard X-ray emission in some cases. There are, however, exceptions to these conclusions, and, therefore, the results should not be generalized to all flares. Most of the data for this work were obtained from instruments flown on the Japanese Yohkoh solar spacecraft.

Published
1994
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30. A far-ultraviolet flare on a Pleiades G dwarf

Author

Ayres, T. R, Stauffer, J. R, Simon, Theodore, Stern, R. A, Antiochos, S. K, Basri, G. S, Bookbinder, J. A, Brown, A, Doschek, G. A, and Linsky, J. L

Subjects
Astronomy
Abstract

The Hubble Space Telescope/Faint Object Spectrograph (HST/FOS) recorded a remarkable transient brightening in the C IV lambda lambda 1548,50 emissions of the rapidly rotating Pleiades G dwarf H II 314. On the one hand the 'flare' might be a rare event luckily observed; on the other hand it might be a bellwether of the coronal heating in very young solar-mass stars. If the latter, flaring provides a natural spin-down mechanism through associated sporadic magnetospheric mass loss.

Published
1994
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31. An improved ultraviolet spectral line list for the symbiotic star RR Telescopii

Author

Doschek, G. A and Feibelman, W. A

Subjects
Astronomy
Abstract

We have remeasured wavelengths and intensities of International Ultraviolet Explorer (IUE) spectra of the symbiotic star, RR Tel. The main work is centered on the long 820 minute exposure high-resolution spectrum obtained on 1983 June 18. The list is intended to serve as a source of improved intensities and wavelengths for the ultraviolet spectrum of this star. A complete line list with intensities based on this exposure has not been published previously. The strongest spectral lines are saturated in the 820 minute exposure, and intensities for these lines are mostly obtained from a 20 minute exposure obtained on the same day. A few intensities are obtained from other exposures if neither the 820 nor the 20 minute exposure is satisfactory. There are 111 lines in our list between 1168 and 1980 A. Some of the very weakest lines may not be real. These are indicated by question marks. We also discuss some of the plasma diagnostics available using spectral lines of O v and O iv.

Published
1993
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32. The potential for plasma diagnostics from stellar extreme-ultraviolet observations

Author

Feldman, U, Mandelbaum, P, Seely, J. F, Doschek, G. A, and Gursky, H

Subjects
Astrophysics
Abstract

A description of the lines from the most abundant ions in the EUV spectrum in the range 50-500 A that have special diagnostic significance is presented. These lines are from plasmas in the temperature range from 10 exp 5 to 10 exp 7 K. Their utility for determining temperature, density, and abundances is demonstrated. An objective grating spectrometer, based on the Skylab slitless spectrograph, for making celestial observations in the EUV spectral region with high spectral resolution is also described. Such an instrument, if equipped with a multilayer grating, can achieve efficiencies over limited EUV wavelength ranges that rival much larger telescope-spectrometer instruments for the observation of stars and other celestial objects.

Published
1992
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33. Relative abundances in the lower solar transition region

Author

Doschek, G. A, Dere, K. P, and Lund, P. A

Subjects
Solar Physics
Abstract

Properties of the lower solar transition region as determined from UV spectral lines recorded by the Naval Research Laboratory HRTS are investigated. The spectra were obtained from a rocket flight in July 1975. Variations of intensity ratios of strong lines of C IV, Si IV, C II, Si III, and O IV over the entire field of view of the HRTS instrument, which extends from disk center to the solar limb are discussed. The largest apparent abundance variations appear to be in the active regions surrounding a sunspot. The C/Si ratio is lower in the active regions than anywhere else in the instrument field of view, implying a lower C/Si abundance ratio in the active regions. There is a possible correlation of line intensity variation in the active region with Doppler shift of the lines; the explanation for this is unclear. The magnitude and reality of intensity ratio variations of all observed solar features are discussed, and monotonic center-to-limb intensity ratio variations due to the opacity of some of the spectral lines are measured.

Published
1991
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34. The solar spectrum between 914 and 1177 A

Author

Feldman, U and Doschek, G. A

Subjects
Solar Physics
Abstract

A spectral line list with wavelengths and identifications for the 914-1177 A region is presented. The list is based on a Naval Research Laboratory (NRL) solar spectrum obtained from a rocket flight in 1966 and on spectra recorded by the NRL S082-B slit spectrograph flown in 1973 on the Skylab manned space station as part of the Apollo Telescope Mount. Three Skylab spectra were used for this work: a limb spectrum recorded at a position of arcsec outside the white-light limb, and two flare spectra. The wavelength list should be useful in analyzing some spectra to be obtained from the planner NASA Lyman Far Ultraviolet Spectroscopic Explorer mission. A separate table listing observed or predicted forbidden lines that fall in the 914-1177 A range is presented, and some of the plasma diagnostic possibilities for spectral lines in this range are discused.

Published
1991
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36. On the dependence of solar flare X-ray spectral line intensity ratios of highly ionized sulfur, calcium, and iron on electron temperature, differential emission measure, and atomic physics

Author

Doschek, G. A, Fludra, A, Bentley, R. D, Lang, J, and Phillips, K. J. H

Subjects
Solar Physics
Abstract

This paper focuses on what can be learned about the emission measure distribution and certain atomic physics parameters from spectral lines of highly ionized ions of sulfur, calcium, and iron that appear in solar flare spectra. The particular lines chosen for analysis allow the electron temperature to be determined independently of the assumption of ionization equilibrium. An attempt is made to find emission measure models based on selected functional dependences of emission measure on temperature that reproduce the observed temperatures deduced from spectral line ratios as well as the relative intensities of resonance lines of different elements.

Published
1990
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37. Solar coronal Ar/Fe and Ne/Mg abundance ratios derived from ultraviolet forbidden line spectra

Author

Doschek, G. A and Bhatia, A. K

Subjects
Solar Physics
Abstract

An Ar/Fe abundance ratio of 0.031 + or - 35 percent and an upper limit of 0.4 to the Ne/Mg abundance ratio are determined for solar coronal active regions using solar spectra. Forbidden lines occur at 1324.45 A for Mg V, 1349.38 A for Fe XII, 1375.98 A for Ca XV, and 1392.12 A for Ar XI. The unobserved Ne V line is predicted to fall at 1574.68 A. These abundance ratios are consistent with lower abundances of Ne and Ar in the corona relative to low first ionization potential elements.

Published
1990
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38. Soft X-ray spectroscopy of solar flares - An overview

Author

Doschek, G. A

Subjects
Solar Physics
Abstract

An overview of the current status of high spectral resolution soft X-ray observations of solar flares is given. The review concentrates primarily on recent results and interpretations of results obtained from orbiting Bragg crystal spectrometers flow during the last solar maximum on the US DoD P78-1 spacecraft, the NASA SMM, and the ISAS Hinotori spacecraft. Results and several key issues regarding interpretation of the spectra are presented. Specifically, the dynamics of coronal flare plasmas as revealed by X-ray line profiles and wavelength shifts are discussed. Recent results concerning the theory of chromospheric evaporation are given. The temperature of coronal flare plasma is discussed within the context of a differential mission measure. Results concerning electron density measurements, nonequilibrium processes, and relative element abundances are also reviewed.

Published
1990
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41. Chromospheric Explosions

Author

Doschek, G. A., Antiochos, S. K., Antonucci, E., Cheng, C.-C., Culhane, J. L., Fisher, G. H., Jordan, C., Leibacher, J. W., MacNeice, P., McWhirter, R. W. P., Moore, R. L., Rabin, D. M., Rust, D. M., Shine, R. A., Kundu, M. R., editor, Woodgate, B., editor, and Schmahl, E. J., editor

Published
1989
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44. Laser-Matter Interaction Studies at NRL

Author

Stamper, J. A., Barr, O. C., Davis, J., Doschek, G. A., Dozier, C. M., Feldman, U., Klein, B. M., Manheimer, W. M., McLean, E. A., McMahon, J. M., Nagel, D. J., Tidman, D. A., Whitlock, R. R., Whitney, K., Winsor, N. K., Young, F. C., Schwarz, Helmut J., editor, and Hora, Heinrich, editor

Published
1974
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45. Experimental Studies of the Physics of Laser Fusion

Author

Stamper, J. A., Bodner, S. E., Burkhalter, P. G., Decoste, R., Doschek, G. A., Feldman, U., Lehmberg, R. H., McLean, E. A., McMahon, J. M., Nagel, D. J., Ripin, B. H., Whitlock, R. R., Young, F. C., Schwarz, Helmut J., editor, and Hora, Heinrich, editor

Published
1977
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48. METIS, the Multi Element Telescope for Imaging and Spectroscopy: an instrument proposed for the solar orbiter mission

Author

Antonucci, E., primary, Andretta, V., additional, Cesare, S., additional, Ciaravella, Angela, additional, Doschek, G., additional, Fineschi, Silvano, additional, Giordano, S., additional, Lamy, P., additional, Moses, D., additional, Naletto, G., additional, Newmark, J., additional, Poletto, L., additional, Romoli, M., additional, Solanki, S., additional, Spadaro, Daniele, additional, Teriaca, L., additional, and Zangrilli, L., additional

Published
2017
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