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Observation Details
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2007-09-21 08:25:25-09:34:05
Latitudinal variation of magnetic elements
Hinode/Canary Islands Campaign
x,y:-2",607"
Max FOV:50"x162"
Target:Quiet Sun
Nearby Events
6302A Continuum Intensity50"x162"315 spectra
6302A Longitudinal Flux Density50"x162"315 spectra
6302A Transverse Flux Density50"x162"315 spectra
6302A Velocity 6301.5A50"x162"315 spectra

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SOTSP: Latitudinal variation of magnetic elements
2007-09-21T08:25:25 to 2007-09-21T09:34:05
Science Goal: Hinode/Canary Islands Campaign
Program: 315 slits (68 m, 50""), 16 cycles, I scaled
Target: Quiet Sun
xcen=-2 ycen=607
Instrument: SOTSP
HOP/JOP: 14
Description: Daily Note and User Entry: Latitudinal variation of the field strength, brightness,and flux distributions of inter-network and network magnetic elements
Request to SOT: Quiet Sun magnetic fields SOT/FG: G-band and Ca II H filtergrams for studying connections between internetwork fields and chromospheric structure SOT/SP: Sequence of short scans in Fe I 630.2nm Active region magnetism SOT/FG: G-band and Ca II H filtergrams for studying connections between internetwork fields and chromospheric structure SOT/SP: Sequence of short scans in Fe I 630.2 nm
Scientific Objectives: We are planning to carry out two kinds of study in this unique opportunity: characterization of quiet Sun magnetic fields including their evolution, and the study of moving magnetic features and flux cancellation events in sunspots. The two problems will be investigated using coordinated observations of Hinode and four solar telescopes in Canary Islands. SOT onboard Hinode and solar telescopes in Canary Islands (SST, VTT, THEMIS, and DOT) will allow us to perform perform high precision spectro-polarimetric measurements in different spectral ranges (in the photosphere and the chromosphere), and imaging observations at the highest spatial resolution possible. All layers of the solar atmosphere will be covered from the photosphere to the corona, by means of XRT and EIS onboard Hinode.
Other Instruments: VTT TIP: Stokes profiles in FeI 1.56 micron and MnI 1.52 micron TESOS+VIP: 2D Spectropolarimetry in Fe I 630nm THEMIS Fe I 630nm and Ca II IR triplet lines DOT: filtergrams in H alpha, CaII H, and G-band SST: magnetogram and G-band filtergram

Daily Note and User Entry: Latitudinal variation of the field strength, brightness,and flux distributions of inter-network and network magnetic elements
Request to SOT: Quiet Sun magnetic fields SOT/FG: G-band and Ca II H filtergrams for studying connections between internetwork fields and chromospheric structure SOT/SP: Sequence of short scans in Fe I 630.2nm Active region magnetism SOT/FG: G-band and Ca II H filtergrams for studying connections between internetwork fields and chromospheric structure SOT/SP: Sequence of short scans in Fe I 630.2 nm
Scientific Objectives: We are planning to carry out two kinds of study in this unique opportunity: characterization of quiet Sun magnetic fields including their evolution, and the study of moving magnetic features and flux cancellation events in sunspots. The two problems will be investigated using coordinated observations of Hinode and four solar telescopes in Canary Islands. SOT onboard Hinode and solar telescopes in Canary Islands (SST, VTT, THEMIS, and DOT) will allow us to perform perform high precision spectro-polarimetric measurements in different spectral ranges (in the photosphere and the chromosphere), and imaging observations at the highest spatial resolution possible. All layers of the solar atmosphere will be covered from the photosphere to the corona, by means of XRT and EIS onboard Hinode.
Other Instruments: VTT TIP: Stokes profiles in FeI 1.56 micron and MnI 1.52 micron TESOS+VIP: 2D Spectropolarimetry in Fe I 630nm THEMIS Fe I 630nm and Ca II IR triplet lines DOT: filtergrams in H alpha, CaII H, and G-band SST: magnetogram and G-band filtergram

Daily Note and User Entry: Latitudinal variation of the field strength, brightness,and flux distributions of inter-network and network magnetic elements
Request to SOT: Quiet Sun magnetic fields SOT/FG: G-band and Ca II H filtergrams for studying connections between internetwork fields and chromospheric structure SOT/SP: Sequence of short scans in Fe I 630.2nm Active region magnetism SOT/FG: G-band and Ca II H filtergrams for studying connections between internetwork fields and chromospheric structure SOT/SP: Sequence of short scans in Fe I 630.2 nm
Scientific Objectives: We are planning to carry out two kinds of study in this unique opportunity: characterization of quiet Sun magnetic fields including their evolution, and the study of moving magnetic features and flux cancellation events in sunspots. The two problems will be investigated using coordinated observations of Hinode and four solar telescopes in Canary Islands. SOT onboard Hinode and solar telescopes in Canary Islands (SST, VTT, THEMIS, and DOT) will allow us to perform perform high precision spectro-polarimetric measurements in different spectral ranges (in the photosphere and the chromosphere), and imaging observations at the highest spatial resolution possible. All layers of the solar atmosphere will be covered from the photosphere to the corona, by means of XRT and EIS onboard Hinode.
Other Instruments: VTT TIP: Stokes profiles in FeI 1.56 micron and MnI 1.52 micron TESOS+VIP: 2D Spectropolarimetry in Fe I 630nm THEMIS Fe I 630nm and Ca II IR triplet lines DOT: filtergrams in H alpha, CaII H, and G-band SST: magnetogram and G-band filtergram

Annotations:
Hits: 56
Chief Observer
Tarbell and Ishikawa
Related Links
Cites: Latitudinal variation of magnetic elements     
Timeline: gif use
See also
Datasets
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saaIntervals hiIntervals

wavelength: 6302A Continuum Intensity cadence: -1 min fov: 50,162 images: 315 JavaScript Landing Page
wavelength: 6302A Velocity 6301.5A cadence: -1 min fov: 50,162 images: 315 JavaScript Landing Page
wavelength: 6302A Transverse Flux Density cadence: -1 min fov: 50,162 images: 315 JavaScript Landing Page
wavelength: 6302A Longitudinal Flux Density cadence: -1 min fov: 50,162 images: 315 JavaScript Landing Page
Time Series (SP Datacubes)