Validation Level: 2 / Capability Type: Simple Image Access Protocol

191. Near-Earth Asteriod Tracking System Archive

ID:: ivo://nasa.heasarc/skyview/neat
Title:: Near-Earth Asteriod Tracking System Archive
Short Name:: NEAT
Date:: 29 Apr 2022
Publisher:: NASA/GSFC HEASARC
Description:: The NEAT/SkyMorph survey provides access to the archives of the Near Earth Asteroid Tracking (NEAT) project. NEAT is designed to look for potentially hazardous asteroids, i.e., those whose orbits cross the Earth's. Over 200,000 images are available in the NEAT archive. <a href=https://skyview.gsfc.nasa.gov/skymorph/skymorph.html>SkyMorph</a> provides a Web interface to the NEAT images and allows users to select all images in which a given fixed or moving object is found. Unlike most SkyView surveys, the NEAT data are extremely irregular in their spatial distribution. SkyView's algorithms for mosaicking images together to form large images are not adequate for the NEAT data, so mosaicking is surpressed. Only data within a single NEAT image will be displayed. The system attempts to find the most recent image within which has a offset in both RA and Dec of less than 0.8 degrees. If no such image is found, then an image with the minimum offset is returned, or the search may fail altogether if there are no nearby plates. The NEAT telescope uses an array of 4 CCDs. The backgrounds of the CCDs may differ significantly. The NEAT survey covers approximately 30% of the sky. Extreme southern and low-Galactic latitude regions are unsurveyed. Coverage is otherwise particularly dense in the ecliptic plane. NEAT data consists primarily of groups of three images taken with separations of 20 minutes and almost identical positions. SkyView will normally return the last of a 'triplet'. The SkyMorph site can be used to display an overlay of triplets to look for targets which moved during the interval between images. A catalog of objects detected in the NEAT/SkyMorph pages is accessible through the SkyMorph pages. 'Light-curves' from all images during which an object was in the NEAT field of view can also be generated. The NEAT data values are in arbitrary density units. To enhance the display data are transformed such that all pixels below the median values are scaled linearly to values 0-20, while all pixels above the median are shifted (but not scaled) to values greater than 20.

192. NED image data atlas

ID:: ivo://ned.ipac/SIA
Title:: NED image data atlas
Short Name:: NED_SIA
Date:: 07 Sep 2022 22:01:00
Publisher:: NASA/IPAC Extragalactic Database
Description:: NED service to search for images in NED by Object Name or by position and radius, or refcode.

193. NEOWISE Post-Cryo Image Atlas

ID:: ivo://irsa.ipac/WISE/Images/postcryo
Title:: NEOWISE Post-Cryo Image Atlas
Short Name:: NEOWISE_Postcryo
Date:: 01 Oct 2024
Publisher:: NASA/IPAC Infrared Science Archive
Description:: The 2013 NEOWISE Post-Cryo Data Release is comprised of data taken during the four month period following the complete exhaustion of cryogens in the Wide-field Infrared Survey Explorer (WISE; Wright et al. 2010) payload. During this period, known as the NEOWISE Post-Cryo mission phase, data were collected by the 3.4 and 4.6 um detectors at sensitivities similar to those achieved during the full cryogenic phase. WISE scanned approximately 70% of the sky during the Post-Cryo phase, completing a survey of the inner Main Asteroid Belt and a second coverage of the inertial sky. WISE is a NASA Astrophysics Division Medium Class Explorer mission that conducted a sensitive mid-infrared imaging survey of the entire sky in 2010 and 2011. WISE mapped the sky with a 40 cm telescope and camera equipped with four 1kx1k array detectors that imaged the same 47'x47' field-of-view at 3.4, 4.6, 12, and 22 um (W1, W2, W3 and W4) simultaneously. The WISE telescope, optics and detectors were cooled by a two-stage solid hydrogen cryostat. WISE surveyed the sky 1.2 times between January 7 and August 6 2010, during its full cryogenic mission phase, when both inner and outer cryogen tanks held hydrogen ice and all detectors operated at full sensitivity. Data collected during this phase make up the March 2012 All-Sky Data Release, which is the best compendium of information about the static mid-infrared sky. WISE continued to survey an additional 30% of the sky between 6 August and 29 September 2010 UTC, the 3-Band Cryo phase, using the W1, W2 and W3 detectors after the hydrogen ice sublimated in the outer cryogen tank, but while the detectors were still cooled by cryogen in the inner tank. Data collected during this phase comprised the June 2012 supplemental 3-Band Cryo Data Release. The NEOWISE Post-Cryo mission phase began on 29 September 2010 UTC after the solid hydrogen in the inner cryogen tank was exhausted and the focal plane assemblies, optics and telescope gradually warmed to approximately 73.5 K. The W1 and W2 HgCdTe detectors remained fully operational during this time with sensitivities close to those observed in the cryogenic mission phases (Figures 1 and 2), although the number of high noise pixels increased as the detectors warmed. No useful data were collected by the W3 and W4 Si:As detectors that were above their operating temperatures and were saturated by thermal emission from payload. WISE surveyed approximately 70% of the sky in the Post-Cryo mission phase until 1 February 2011 UTC when data collection was halted.

194. NEOWISE Post-Cryo Preliminary Image Atlas

ID:: ivo://irsa.ipac/WISE/Images/prelimpostcryo
Title:: NEOWISE Post-Cryo Preliminary Image Atlas
Short Name:: NEOWISEprelimpc
Date:: 01 Oct 2024
Publisher:: NASA/IPAC Infrared Science Archive
Description:: The NEOWISE Post-Cryo Preliminary Data Release contains 3.4 and 4.6 um (W1 and W2) Single-exposure image and extracted source data that were acquired by Wide-field Infrared Survey Explorer (WISE; Wright et al. 2010) following the exhaustion of solid hydrogen in the satellite's payload inner and outer cryogen tanks. During this period, known as the NEOWISE Post-Cryo survey phase, the WISE optics and focal plane assemblies warmed to 73.5 K, and the W1 and W2 HgCdTe detectors continued to operate with sensitivities close to those achieved during the full cryogenic mission phase. No useful data were obtained by WISE's 12 and 22 um Si:As detectors because of the higher temperatures. WISE scanned approximately 70% of the sky during the Post-Cryo phase, completing a survey of the inner Main Asteroid Belt, and a second coverage epoch of the inertial sky.

195. Nine Year INTEGRAL IBIS 17\-35 keV Galactic Plane Survey: Exposure

ID:: ivo://nasa.heasarc/skyview/intgal1735e
Title:: Nine Year INTEGRAL IBIS 17\-35 keV Galactic Plane Survey: Exposure
Short Name:: INTGAL1735E
Date:: 07 Mar 2025
Publisher:: NASA/GSFC HEASARC
Description:: This survey combines 9 years of INTEGRAL IBIS observations from December 2002 through January 2011 into a single Galactic Plane image. A total of 135 megaseconds of exposure is included in the observations used. Survey data is generated for the Galactic plane in the region |b| <= 17.5. The original flux data has been convolved with 5' seeing kernel. To minimize loss of resolution in transformations, the Lanczos sampler is suggested as the default, but may be overriden by the user. Both the preconvolved and standard convolved maps are available at the <a href="https://web.archive.org/web/20170620112312/https://hea.iki.rssi.ru/integral/nine-years-galactic-survey/index.php">Website</a>. The exposure and sensitivity vary considerably over the coverage region, but 90% of the field has a limiting sensitivity better than 2.2 x 10-11ergs s-1cm-2 or about 1.56 mCrab. Further details of the survey construction are given in the reference. The flux and significance maps use the PSF convolved maps from the survey. The flux maps are in millicrab units. Exposure maps (with exposures in seconds) were from the exposure extension in the MAPDLD files and give the dead-time corrected exposure in seconds. Links to the exposure and significance maps corresponding to the requested region will be given in the Web output. These maps can be generated directly in the CLI interface. For each waveband the flux, significance and exposure maps are available with just the end of the survey names distinguishing them (e.g., INT Gal 17-35 [Flux|Sig|Exp] or INTGal1735[F|S|E]) Provenance: <a href="https://adsabs.harvard.edu/cgi-bin/bib_query?arXiv:1205.3941">Krivonos et al., 2012</a> Based on observations with INTEGRAL, an ESA project with instruments and science data centre funded by ESA member states (especially the PI countries: Denmark, France, Germany, Italy, Switzerland and Spain), Poland, and participation of Russia and the USA.. This is a service of NASA HEASARC.

196. Nobeyama Radio Telescope FITS Archive

ID:: ivo://jvo/nobeyama
Title:: Nobeyama Radio Telescope FITS Archive
Short Name:: NRO FITS ARCHIVE
Date:: 14 Nov 2019 03:48:50
Publisher:: JVO
Description:: FITS data archive for Nobeyama 45m radio telescope.

197. NRA) VLA Sky Survey

ID:: ivo://nasa.heasarc/skyview/nvss
Title:: NRA) VLA Sky Survey
Short Name:: NVSS
Date:: 07 Mar 2025
Publisher:: NASA/GSFC HEASARC
Description:: SkyView has copied the NVSS intensity data from the NRAO FTP site. The full NVSS survey data includes information on other Stokes parameters. Observations for the 1.4 GHz NRAO VLA Sky Survey (NVSS) began in 1993 September and should cover the sky north of -40 deg declination (82% of the celestial sphere) before the end of 1996. The principal data products are: <ol> <li> A set of 2326 continuum map "cubes," each covering 4 deg X 4 deg with three planes containing Stokes I, Q, and U images. These maps were made with a relatively large restoring beam (45 arcsec FWHM) to yield the high surface-brightness sensitivity needed for completeness and photometric accuracy. Their rms brightness fluctuations are about 0.45 mJy/beam = 0.14 K (Stokes I) and 0.29 mJy/beam = 0.09 K (Stokes Q and U). The rms uncertainties in right ascension and declination vary from 0.3 arcsec for strong (S > 30 mJy) point sources to 5 arcsec for the faintest (S = 2.5 mJy) detectable sources. <li> Lists of discrete sources. </ol> The NVSS is being made as a service to the astronomical community, and the data products are being released as soon as they are produced and verified. The NVSS survey is included on the SkyView High Resolution Radio Coverage <a href="https://skyview.gsfc.nasa.gov/images/high_res_radio.jpg"> map</a>. This map shows coverage on an Aitoff projection of the sky in equatorial coordinates. Provenance: National Radio Astronomy Observatory. The NVSS project includes J. J. Condon, W. D. Cotton, E. W. Greisen, Q. F. Yin, R. A. Perley (NRAO), and J. J. Broderick (VPI).. This is a service of NASA HEASARC.

198. NuSTAR Master Catalog

ID:: ivo://nasa.heasarc/numaster
Title:: NuSTAR Master Catalog
Short Name:: NUMASTER
Date:: 07 Mar 2025
Publisher:: NASA/GSFC HEASARC
Description:: The Nuclear Spectroscopic Telescope Array (NuSTAR) mission, launched on 2012 June 13, is the first focusing high-energy X-ray telescope in orbit. NuSTAR operates in the band from 3 to 79 keV, extending the sensitivity of focusing instruments far beyond the ~10 keV high-energy cutoff achieved by all previous X-ray satellites. The inherently low background associated with concentrating the X-ray light enables NuSTAR to probe the hard X-ray sky with a more than 100-fold improvement in sensitivity over the collimated or coded mask instruments that have operated in this bandpass. The observatory was placed into a 600-km altitude, 6 degree inclination circular orbit, and consists of two co-aligned grazing-incidence X-ray telescopes pointed at celestial targets by a three-axis stabilized spacecraft. NuSTAR has completed its two-year primary science mission, and, with an expected orbit lifetime of more than 10 years, the opportunity for proposing observations as part of the General Observer (GO) program is now available, with observations beginning in 2015. Using its unprecedented combination of sensitivity and spatial and spectral resolution, NuSTAR offers opportunities for a broad range of science investigations, ranging from probing cosmic ray origins to studying the extreme physics around compact objects to mapping micro-flares on the surface of the Sun. NuSTAR also responds to targets of opportunity including supernovae and gamma-ray bursts. This table contains a list of (a) unobserved targets that are planned or have been accepted for observation by NuSTAR in the future and (b) NuSTAR observations which have been processed and successfully validated by the NuSTAR Science Operation Center. The data from these observations may or may not be public and the user should check the value of the public_date parameter to determine the status of a specified data set. Only those ObsIDs which have a public_date in the past will have data publicly available. Observations with a public_date parameter value which is either blank or a date in the future have been ingested into the HEASARC archive but will remain encrypted until their public date. Entries with the status field set to 'accepted' are targets approved for scheduling, and the planned exposure time given in the exposure_a (and exposure_b) parameter will have a negative value for those targets. This database table is based on information supplied by the NuSTAR Project at Caltech. It is automatically updated on a regular basis. This is a service provided by NASA HEASARC .

199. Observatorio de Cielo Profundo

ID:: ivo://svo.cab/obcp
Title:: Observatorio de Cielo Profundo
Date:: 26 Nov 2019 10:33:45
Publisher:: SVO CAB
Description:: El Observatorio de Cielo Profundo (ObCP) de la Asociación Astronómica de Cartagena es un observatorio urbano situado en el barrio de Canteras, en Cartagena. Fruto de la colaboración de la asociación con el Ayuntamiento de Cartagena, está situado en la terraza del Centro Juvenil de Canteras. El observatorio está equipado con un tubo Celestron C14HD y una CCD Moravian G3-11000 con rueda portafiltros, alojado en una cúpula de cuatro metros y controlado todo remotamente.

200. Official ALMA Simple Image Access (EA server at NAOJ)

ID:: ivo://jao.alma/sia2_ea
Title:: Official ALMA Simple Image Access (EA server at NAOJ)
Short Name:: ALMA SIA2 EA
Date:: 06 Sep 2024 06:59:55
Publisher:: Joint ALMA Observatory (JAO)
Description:: The official ALMA SIA2 service. It provides an extended SIA v2.0 view of all ALMA observations.

Search

Search Constraints

Search Results

191. Near-Earth Asteriod Tracking System Archive

192. NED image data atlas

193. NEOWISE Post-Cryo Image Atlas

194. NEOWISE Post-Cryo Preliminary Image Atlas

195. Nine Year INTEGRAL IBIS 17\-35 keV Galactic Plane Survey: Exposure

196. Nobeyama Radio Telescope FITS Archive

197. NRA) VLA Sky Survey

198. NuSTAR Master Catalog

199. Observatorio de Cielo Profundo

200. Official ALMA Simple Image Access (EA server at NAOJ)

Limit your search

Subject

Publisher

Resource Type

Content Level

Instrument

Facility

Validation Level

Rights

Capability Type

Result Type