Presentation is loading. Please wait.

Presentation is loading. Please wait.

000509EISPDR_SciInvGIs.1 EIS Science Goals: The First Three Months…. Louise Harra Mullard Space Science Laboratory University College London.

Published byLindsay Joseph Modified over 9 years ago

Similar presentations

Presentation on theme: "000509EISPDR_SciInvGIs.1 EIS Science Goals: The First Three Months…. Louise Harra Mullard Space Science Laboratory University College London."— Presentation transcript:

1 000509EISPDR_SciInvGIs.1 EIS Science Goals: The First Three Months…. Louise Harra Mullard Space Science Laboratory University College London

2 The 4th Solar B Science Meeting 3-5 Jan 2003 SCIENCE GOALS Coronal heating - to determine the physical mechanisms responsible for coronal heating in the quiet Sun and active regions (e.g. detect magnetic reconnection, wave heating). Transient Phenomena - to determine the physical mechanisms responsible for transient phenomena, such as solar flares, coronal mass ejections, jets, network brightenings (e.g. determine energy transport and mass motions during transient events). Energy Transfer from the photosphere to the corona -to investigate the causal relationship between dynamics in the photosphere and coronal phenomena.

3 The 4th Solar B Science Meeting 3-5 Jan 2003 Extreme-Ultraviolet Imaging Spectrometer (EIS) EIS Records Solar Extreme-Ultraviolet (EUV) Spectra That Contain Information on the Dynamics, Velocity, Temperature, and Density of the Emitting Plasma Spectra Are Obtained With High Spatial Resolution –Spectra at Many Locations Within an Entire Solar Structure Can Be Recorded Spectra Are Obtained With Sufficient Time Resolution to Determine the Dynamics As a Function of Position Within Solar Flare and Active Region Loops EIS Is the First EUV Solar Spectrometer Capable of Obtaining High Spectral Resolution Data With Both High Spatial and Temporal Resolution

4 The 4th Solar B Science Meeting 3-5 Jan 2003 EIS Science Planning Guide We are developing this on our web site www.mssl.ucl.ac.uk/espg.html Includes an EIS study form in order to ‘play’ with your own personal observing plans. Includes a list of EIS studies produced by the EIS team Includes line lists and intensities in different regions of activity Includes a set of science data products Includes an initial science plan for the first 3 months

5 The 4th Solar B Science Meeting 3-5 Jan 2003 The first 3 months…. the first spatial determination of evaporation and turbulence in a flareFlare trigger and dynamics: the first spatial determination of evaporation and turbulence in a flare the first spatial determination of the velocity field in active region loopsActive region heating:the first spatial determination of the velocity field in active region loops first spatial velocity and dimming measurement at high temporal resolutionCoronal Mass Ejection Onset:first spatial velocity and dimming measurement at high temporal resolution the first measurement of intensity and velocity field at the coronal hole boundaryCoronal Hole Boundaries:the first measurement of intensity and velocity field at the coronal hole boundary first determination of the relationship between different categories of quiet Sun events.Quiet Sun Brightenings:first determination of the relationship between different categories of quiet Sun events.

6 The 4th Solar B Science Meeting 3-5 Jan 2003 Flare Trigger/Dynamics Evaporation - We know it’s happening, but where from and what size?

7 The 4th Solar B Science Meeting 3-5 Jan 2003 Flare Trigger/Dynamics Inflow: we’ve seen it once! But is it happening all the time?

8 The 4th Solar B Science Meeting 3-5 Jan 2003 Flare Trigger/Dynamics What causes a flare? We have many tantalizing hints - EIS will provide spatial resolved preflare Vnt & flow measurements. TRACE 195 + RHESSI 6-12keV TRACE 1600+ CDS OV

9 The 4th Solar B Science Meeting 3-5 Jan 2003 Active Region Heating What causes loop heating and dynamics? Accurate line width and Doppler velocity measurements over a range of velocities will provide critical information.

10 The 4th Solar B Science Meeting 3-5 Jan 2003 Coronal Mass Ejection Onset We need to know the velocity and dimming profiles over a range of temperatures to begin to understand the CME onset (see Harra & Sterling, 2001)

11 The 4th Solar B Science Meeting 3-5 Jan 2003 Coronal Mass Ejection Onset Coronal waves are often seen related to CMEs - what are the physical characteristics of these waves? CDS data is showing some tantalizing hints…. See Harra & Sterling 2003

12 The 4th Solar B Science Meeting 3-5 Jan 2003 Coronal Hole Boundaries The CH boundaries are not well understood - we will be able to determine the velocity field at this important region.

13 The 4th Solar B Science Meeting 3-5 Jan 2003 OV 45,000km 7,500 km Quiet Sun Events Are explosive events and blinkers the same phenomena? We will be able to measure velocities at good spatial resolution….

14 The 4th Solar B Science Meeting 3-5 Jan 2003 Conclusions I have concentrated on what EIS can do for us in the first few months - combining these observations with SOT and XRT will provide new and exciting science. We intend to track targets for long periods of time (at least a day on each target). If there is an active region we will track it. If not we will carry out the CME onset on filaments, QS and CH studies.

Download ppt "000509EISPDR_SciInvGIs.1 EIS Science Goals: The First Three Months…. Louise Harra Mullard Space Science Laboratory University College London."

Similar presentations

The Science of Solar B Transient phenomena – this aim covers the wide ranges of explosive phenomena observed on the Sun – from small scale flaring in the.

The Science of Solar B Transient phenomena – this aim covers the wide ranges of explosive phenomena observed on the Sun – from small scale flaring in the.
000509EISPDR_SciInvGIs.1 EIS Performance and Operations Louise Harra Mullard Space Science Laboratory University College London.

000509EISPDR_SciInvGIs.1 EIS Performance and Operations Louise Harra Mullard Space Science Laboratory University College London.
Masuda Flare: Remaining Problems on the Looptop Impulsive Hard X-ray Source in Solar Flares Satoshi Masuda (STEL, Nagoya Univ.)

Masuda Flare: Remaining Problems on the Looptop Impulsive Hard X-ray Source in Solar Flares Satoshi Masuda (STEL, Nagoya Univ.)
COSPAR E2.1 2004 July 22, Paris revised for Nobeyama Symposium 2004 October 29, Kiyosato Takeo Kosugi (ISAS/JAXA, Japan)

COSPAR E July 22, Paris revised for Nobeyama Symposium 2004 October 29, Kiyosato Takeo Kosugi (ISAS/JAXA, Japan)
Initial Results of EIS Shinsuke Imada (NAOJ) EIS Team.

Initial Results of EIS Shinsuke Imada (NAOJ) EIS Team.
1 Hinode Coordinated Observations: Heat Transfer Contributed by the Hinode/EIS team through the Naval Research Laboratory and University College London.

1 Hinode Coordinated Observations: Heat Transfer Contributed by the Hinode/EIS team through the Naval Research Laboratory and University College London.
A flare compilation Lots of people including Louise Harra, Lidia van Driel Gesztelyi, Chris Goff, Sarah Matthews, Len Culhane, Cristina Mandrini, Pascal.

A flare compilation Lots of people including Louise Harra, Lidia van Driel Gesztelyi, Chris Goff, Sarah Matthews, Len Culhane, Cristina Mandrini, Pascal.
1 Hinode Coordinated Observations: Plasma Composition Photospheric composition ~ 1 in coronal hole (CH) -> fast wind Coronal composition ~1.5-3 in active.

1 Hinode Coordinated Observations: Plasma Composition Photospheric composition ~ 1 in coronal hole (CH) -> fast wind Coronal composition ~1.5-3 in active.
Multi-Wavelength Studies of Flare Activities with Solar-B ASAI Ayumi Kwasan Observatory, Kyoto University Solar-B Science February 4, 2003.

Multi-Wavelength Studies of Flare Activities with Solar-B ASAI Ayumi Kwasan Observatory, Kyoto University Solar-B Science February 4, 2003.
Science With the Extreme-ultraviolet Spectrometer (EIS) on Solar-B by G. A. Doschek (with contributions from Harry Warren) presented at the STEREO/Solar-B.

Science With the Extreme-ultraviolet Spectrometer (EIS) on Solar-B by G. A. Doschek (with contributions from Harry Warren) presented at the STEREO/Solar-B.
The Sun’s Dynamic Atmosphere Lecture 15. Guiding Questions 1.What is the temperature and density structure of the Sun’s atmosphere? Does the atmosphere.

The Sun’s Dynamic Atmosphere Lecture 15. Guiding Questions 1.What is the temperature and density structure of the Sun’s atmosphere? Does the atmosphere.
Review Vocabulary magnetic field: the portion of space near a magnetic or current-carrying body where magnetic forces can be detected The Sun contains.

Review Vocabulary magnetic field: the portion of space near a magnetic or current-carrying body where magnetic forces can be detected The Sun contains.
Solar evidence for magnetic reconnection H. S. Hudson Space Sciences Lab, UC Berkeley.

Solar evidence for magnetic reconnection H. S. Hudson Space Sciences Lab, UC Berkeley.
Transients in RHESSI and Chromospheric flares H. Hudson Space Sciences Lab, UC Berkeley.

Transients in RHESSI and Chromospheric flares H. Hudson Space Sciences Lab, UC Berkeley.
Magnetic Helicity • Magnetic helicity measures

Magnetic Helicity • Magnetic helicity measures
Chapter 7 The Sun. Solar Prominence – photo by SOHO spacecraft from the Astronomy Picture of the Day site link.

Chapter 7 The Sun. Solar Prominence – photo by SOHO spacecraft from the Astronomy Picture of the Day site link.
2006-02-14 Solar-B XRT XRT-1 The Science and Capability of the Solar-B / X-Ray Telescope Solar-B XRT Presenter: Ed DeLuca Smithsonian Astrophysical Observatory.

Solar-B XRT XRT-1 The Science and Capability of the Solar-B / X-Ray Telescope Solar-B XRT Presenter: Ed DeLuca Smithsonian Astrophysical Observatory.
Magnetic Field Measurements from Solar-B Information shown here is from Solar-B team (including Drs Ichimoto, Kosugi, Shibata, Tarbell, and Tsuneta)

Magnetic Field Measurements from Solar-B Information shown here is from Solar-B team (including Drs Ichimoto, Kosugi, Shibata, Tarbell, and Tsuneta)
DOPPLER DOPPLER A Space Weather Doppler Imager Mission Concept Exploration Science Objectives What are the most relevant observational signatures of flare,

DOPPLER DOPPLER A Space Weather Doppler Imager Mission Concept Exploration Science Objectives What are the most relevant observational signatures of flare,
Solar-B Science Objectives - Overview of the Mission - Kazunari Shibata (Kyoto Univ.)

Solar-B Science Objectives - Overview of the Mission - Kazunari Shibata (Kyoto Univ.)

Similar presentations

Ads by Google