Heliophysics Events Knowledgebase Coverage Registry (HCR)
Observation Details
Overview Where Groups: Mode, FOV, # spectra in map Data Links
2007-07-10 11:57:06-12:09:57
SP normal map single slit nighttime
SP map nighttime
x,y:-762",-159"
Max FOV:0"x162"
Target:Calibration
Nearby Events
6302A Continuum Intensity0"x162"78 spectra
6302A Longitudinal Flux Density0"x162"78 spectra
6302A Transverse Flux Density0"x162"78 spectra
6302A Velocity 6301.5A0"x162"78 spectra

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SOTSP: SP normal map single slit nighttime
2007-07-10T11:57:06 to 2007-07-10T12:09:57
Science Goal: SP map nighttime
Program: Normal Map single slit position
Target: Calibration
xcen=-762 ycen=-159
Instrument: SOTSP
HOP/JOP: 18
Description: Daily Note and User Entry:
Request to SOT: Observation of Ca H spicules. The sequence that was run previously is used. Widest FOV in the NS direction is desired.
Scientific Objectives: To understand the origin of non-thermal line broadening in coronal emission lines
Other Instruments: Norikura: High dispersion spectra of Fe X6374 and Fe XIV5303 are obtained. High-acuracy Doppler velocity and line width are given. Independent Fe XIV 5303 imaging observations provide high-cadence imaging and Doppler informaiton. Bi-products: <
This is the most important for EIS team.>
: By the simultaneous observations with Norikura Solar Observatory, EIS line width of instrumental origin is absolutely calibrated. In EIS bandpass there are Fe X lines in the short wavelength band and Fe XIV lines in the long wavelength band. These are calibrated with Fe X 6374 and Fe XIV 5303 emission lines. Norikura Solar Observatory is going to support this campaign observation with a high priority.

Daily Note and User Entry:
Request to SOT: Observation of Ca H spicules. The sequence that was run previously is used. Widest FOV in the NS direction is desired.
Scientific Objectives: To understand the origin of non-thermal line broadening in coronal emission lines
Other Instruments: Norikura: High dispersion spectra of Fe X6374 and Fe XIV5303 are obtained. High-acuracy Doppler velocity and line width are given. Independent Fe XIV 5303 imaging observations provide high-cadence imaging and Doppler informaiton. Bi-products: <
This is the most important for EIS team.>
: By the simultaneous observations with Norikura Solar Observatory, EIS line width of instrumental origin is absolutely calibrated. In EIS bandpass there are Fe X lines in the short wavelength band and Fe XIV lines in the long wavelength band. These are calibrated with Fe X 6374 and Fe XIV 5303 emission lines. Norikura Solar Observatory is going to support this campaign observation with a high priority.

Daily Note and User Entry:
Request to SOT: Observation of Ca H spicules. The sequence that was run previously is used. Widest FOV in the NS direction is desired.
Scientific Objectives: To understand the origin of non-thermal line broadening in coronal emission lines
Other Instruments: Norikura: High dispersion spectra of Fe X6374 and Fe XIV5303 are obtained. High-acuracy Doppler velocity and line width are given. Independent Fe XIV 5303 imaging observations provide high-cadence imaging and Doppler informaiton. Bi-products: <
This is the most important for EIS team.>
: By the simultaneous observations with Norikura Solar Observatory, EIS line width of instrumental origin is absolutely calibrated. In EIS bandpass there are Fe X lines in the short wavelength band and Fe XIV lines in the long wavelength band. These are calibrated with Fe X 6374 and Fe XIV 5303 emission lines. Norikura Solar Observatory is going to support this campaign observation with a high priority.

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Hits: 51
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Cites: SP normal map single slit nighttime     
Timeline: gif use
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wavelength: 6302A Continuum Intensity cadence: 0.1 min fov: 0,162 images: 78 JavaScript Landing Page
wavelength: 6302A Velocity 6301.5A cadence: 0.1 min fov: 0,162 images: 78 JavaScript Landing Page
wavelength: 6302A Transverse Flux Density cadence: 0.1 min fov: 0,162 images: 78 JavaScript Landing Page
wavelength: 6302A Longitudinal Flux Density cadence: 0.1 min fov: 0,162 images: 78 JavaScript Landing Page
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