SuperDARN

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File:SuperDARN.jpg
A SuperDARN radar site located in Saskatoon, Canada

The Super Dual Auroral Radar Network (SuperDARN) is an international scientific radar network[1][2] consisting of 35[3] high frequency (HF) radars located in both the Northern and Southern Hemispheres. SuperDARN radars are primarily used to map high-latitude plasma convection in the F region of the ionosphere, but the radars are also used to study a wider range of geospace phenomena including field aligned currents, magnetic reconnection, geomagnetic storms and substorms, magnetospheric MHD waves, mesospheric winds via meteor ionization trails, and interhemispheric plasma convection asymmetries.[2]

The SuperDARN collaboration is composed of radars operated by JHU/APL, Virginia Tech, Dartmouth College, the Geophysical Institute at the University of Alaska Fairbanks, the Institute of Space and Atmospheric Studies at the University of Saskatchewan, the University of Leicester, Lancaster University, La Trobe University, the Solar-Terrestrial Environment Laboratory at Nagoya University, the British Antarctic Survey and the Institute for Space Astrophysics and Planetology (INAF-IAPS Italy).

History

In the 1970s and 1980s, the Scandinavian Twin Auroral Radar Experiment (STARE) very high frequency (VHF) coherent scatter radars were used to study field aligned E region ionospheric irregularities. Using two radars with overlapping fields of view, it was possible to determine the 2D velocity vector of E region ionospheric plasma flow.[2] However, irregularities were only observed when the radar wavevector was perpendicular to the magnetic field in the scattering region.

This meant that there was a problem with operating at VHF since VHF frequencies don't allow for very much refraction of the transmitted radar wave vector; thus, the perpendicularity requirement could not be easily met at high latitudes. At HF frequencies, however, refraction of the radar wave vector is greater, and this allows for the perpendicularity requirement to be met at high latitudes. Refraction of radio waves in the ionosphere is a complicated non-linear phenomenon governed by the Appleton–Hartree equation.

In 1983, a steerable-beam HF radar with 16 log-periodic antennas began operations at Goose Bay, Labrador, Canada.[1] Comparing measurements of F region ionospheric plasma velocity from the Goose Bay radar with the Sondestrom Incoherent Scatter Radar revealed that the Goose Bay radar was capable of measuring the F region plasma convection velocity. A magnetically conjugate radar was constructed in Antarctica at Halley Research Station in 1988 as part of the Polar Anglo–American Conjugate Experiment (PACE). PACE provided simultaneous conjugate studies of ionospheric and magnetospheric phenomena.[2]

From PACE, which was only able to determine a single component of the 2D ionospheric velocity, it became apparent that determining the 2D ionospheric velocity would be advantageous. Combining velocity measurements from Goose Bay with a second coherent-scatter radar in Schefferville in 1989 allowed for a 2D determination of the F region ionospheric velocity.

This work led to SuperDARN, a network of HF radars with pairs of radars having overlapping fields of view. This arrangement allowed for the determination of the full 2D ionospheric plasma convection velocity. Due to the advancement of data assimilation models, radars recently added to the network do not necessarily have overlapping fields of view. Using data from all SuperDARN radars in the northern or southern hemisphere, an ionospheric plasma convection pattern—a map of high-latitude plasma velocity at F region altitudes (300 km)—can be determined.[2]

Primary Goals

The primary goals of SuperDARN are to determine or study:

  • Structure of global convection—to provide a global-scale view of the configuration of plasma convection in the high-latitude ionosphere;
  • Dynamics of global convection—to provide a global-scale view of the dynamics of plasma convection in the high-latitude ionosphere. (Previous studies of high-latitude convection had largely been statistical and time-averaged);
  • Substorms—to test various theories of polar cap expansion and contraction under changing IMF conditions and observe the large-scale response of the nightside; convection pattern to substorms:
  • Signatures of atmospheric gravity waves in the ionosphere,[4]
  • High-latitude plasma structures, and
  • Ionospheric irregularities

Operations

SuperDARN radars operate in the HF band between 8.0 MHz (37 m) and 22.0 MHz (14 m).[2] In the standard operating mode each radar scans through 16 beams of azimuthal separation of ~3.24°, with a scan taking 1 min to complete (~3 seconds integration per beam).

Each beam is divided into 75 (or 100) range gates each 45 km in distance, and so in each full scan the radars each cover 52° in azimuth and over 3000 km in range; an area encompassing the order of 1 million square km.

The radars measure the Doppler velocity (and other related characteristics) of plasma density irregularities in the ionosphere.

Since Linux became popular, it has become the default operating system for the SuperDARN network. The operating system (superdarn-ros.3.6) is currently licensed under the LGPL). [1]

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SuperDARN sites

The following is a list of SuperDARN sites, based on a list maintained by Virginia Tech College of Engineering.[5]

As of 2009, an expansion project was underway for expanding the network into the middle latitudes, including the addition of sites in Hays, Kansas (near Fort Hays State University), Oregon, and the Azores, in order to support mapping outside of the auroral regions during large magnetic storms.[6]

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Name Code Location Coordinates Boresight
Heading		 PI Institute
Northern Hemisphere
Adak Island East ade Template:Flagicon Adak Island, Alaska Template:Coord 46.0° Template:Flagicon University of Alaska Fairbanks
Adak Island West adw Template:Coord −28.0°
Blackstone bks Template:Flagicon Blackstone, Virginia Template:Coord -40.0° Template:Flagicon Virginia Tech
Christmas Valley East cve Template:Flagicon Christmas Valley, Oregon Template:Coord 54.0° Template:Flagicon Dartmouth College
Christmas Valley West cvw Template:Coord −20.0°
Clyde River cly Template:Flagicon Clyde River, Nunavut Template:Coord −55.6° Template:Flagicon University of Saskatchewan
Fort Hays East fhe Template:Flagicon Hays, Kansas Template:Coord 45.0° Template:Flagicon Virginia Tech
Fort Hays West fhw Template:Coord −25.0°
Goose Bay gbr Template:Flagicon Goose Bay, Newfoundland and Labrador Template:Coord 5.0°
Hankasalmi han Template:Flagicon Hankasalmi Template:Coord −12.0° Template:Flagicon University of Leicester
Hokkaido East hok Template:Flagicon Rikubetsu, Hokkaido Template:Coord 25.0° Template:Flagicon Nagoya University
Hokkaido West hkw Template:Coord −30.0°
Iceland East ice Template:Flagicon Þykkvibær Template:Coord 23.0° Template:Flagicon Dartmouth College
Iceland West icw Template:Coord -52.0°
Inuvik inv Template:Flagicon Inuvik, Northwest Territories Template:Coord 26.4° Template:Flagicon University of Saskatchewan
Jiamusi East jme Template:Flagicon Jiamusi, Heilongjiang Template:Coord 44.0° Template:Flagicon NSSC, CAS
Kapuskasing kap Template:Flagicon Kapuskasing, Ontario Template:Coord −12.0° Template:Flagicon Virginia Tech
King Salmon ksr Template:Flagicon King Salmon, Alaska Template:Coord −20.0° Template:Flagicon NICT
Kodiak kod Template:Flagicon Kodiak, Alaska Template:Coord 30.0° Template:Flagicon University of Alaska Fairbanks
Longyearbyen lyr Template:Flagicon Longyearbyen, Svalbard Template:Coord 23.7° Template:Flagicon UNIS
Þykkvibær pyk Template:Flagicon Þykkvibær Template:Coord 30.0° Template:Flagicon University of Leicester
Prince George pgr Template:Flagicon Prince George, British Columbia Template:Coord −5.0° Template:Flagicon University of Saskatchewan
Rankin Inlet rkn Template:Flagicon Rankin Inlet, Nunavut Template:Coord 5.7°
Saskatoon sas Template:Flagicon Saskatoon, Saskatchewan Template:Coord 23.1°
Schefferville sch Template:Flagicon Schefferville, Quebec Template:Coord 15.0° Template:Flagicon CNRS/LPCE
Siziwang East sze Template:Flagicon Siziwang, Inner Mongolia Template:Coord 42.0° Template:Flagicon NSSC, CAS
Siziwang West szw Template:Coord -36.0°
Stokkseyri sto Template:Flagicon Stokkseyri Template:Coord −59.0° Template:Flagicon Lancaster University
Wallops Island wal Template:Flagicon Wallops Island, Virginia Template:Coord 35.9° Template:Flagicon Applied Physics Laboratory
Southern Hemisphere
Name Code Location Coordinates Boresight
Heading		 PI Institute
Buckland Park bpk Template:Flagicon Buckland Park, South Australia Template:Coord 146.5° Template:Flagicon La Trobe University
Dome C East dce Template:Flagicon Concordia Station Template:Coord 115.0° Template:Flagicon INAF
Dome C North dcn Template:Coord -28.0°
Falkland Islands fir Template:Flagicon Falkland Islands Template:Coord 178.3° Template:Flagicon British Antarctic Survey
Halley* hal Template:Flagicon Halley Research Station Template:Coord 165.0°
Kerguelen ker Template:Flagicon Kerguelen Islands Template:Coord 168.0° Template:Flagicon IRAP/CNRS/IPEV
McMurdo mcm Template:Flagicon McMurdo Station Template:Coord 300.0° Template:Flagicon University of Alaska Fairbanks
SANAE* san Template:Flagicon SANAE IV Station Template:Coord 173.2° Template:Flagicon SANSA
South Pole sps Template:Flagicon South Pole Station Template:Coord 75.7° Template:Flagicon University of Alaska Fairbanks
Syowa East* sye Template:Flagicon Showa Station Template:Coord 106.5° Template:Flagicon NIPR
Syowa South* sys Template:Coord 159.0°
Tiger tig Template:Flagicon Bruny Island, Tasmania Template:Coord 180.0° Template:Flagicon La Trobe University
Unwin unw Template:Flagicon Awarua, near Invercargill Template:Coord 227.9°
Zhongshan zho Template:Flagicon Zhongshan Station Template:Coord 72.5° Template:Flagicon PRIC

*: Part of the Southern Hemisphere Auroral Radar Experiment

Coverage

Northern Hemisphere

  • Because the SuperDARN network evolved in the west during the late Cold War, coverage of Russia's arctic regions is poor.
  • Although there is no shortage of possible sites to cover Russia's Arctic regions from Northern Europe and Alaska, the coverage would probably not be of high quality.
  • Although Russian universities have worked with the University of Leicester and installed a HF radar in Siberia, national funding issues have limited the radar operations.
  • The Polar Research Institute of China has extended mid-latitude coverage, christening the extension to SuperDARN "AgileDARN" [7]

Southern Hemisphere

  • Although Antarctica is covered reasonably well, the Sub-Antarctic regions do not have uniform coverage due to the large expanse of ocean.
  • Java VM real time display software interoperability (where both poles could be observed at the same time) is still a work in progress.

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Annual SuperDARN Workshops

Each year the SuperDARN scientific community gather to discuss SuperDARN science, operations, hardware, software and other SuperDARN related issues. Traditionally, this workshop has been hosted by one of the SuperDARN PI groups, often at their home institution, or at another location such as a site close to a radar installation. A list of the SuperDARN workshop locations and their host institutions is provided below:

Year Venue Host Institution
2025 Blacksburg, Virginia, USA Virginia Polytechnic Institute of Technology (VT)
2024 Beijing, China National Space Science Center, Chinese Academy of Sciences
2023 Drakensburg, South Africa University of KwaZulu-Natal
2022 Online National Space Science Center, Chinese Academy of Sciences
2021 Online University of Saskatchewan
2020 Online University of KwaZulu-Natal
2019 Fujiyoshida, Yamanashi, Japan National Institute of Information and Communications Technology (NICT)
2018 Banyuls-sur-Mer, France L'Institut de Recherche en Astrophysique et Planétologie (IRAP)
2017 San Quirico D'Orcia, Siena, Italy Institute for Space Astrophysics and Planetology (IAPS) of the National Institute for Astrophysics (INAF)
2016 Fairbanks, Alaska, USA Geophysical Institute, University of Alaska Fairbanks
2015 Leicester, UK Radio and Space Plasma Physics Group (RSPP), University of Leicester
2014 Longyearbyen, Svalbard, Norway The University Centre in Svalbard (UNIS)
2013 Moose Jaw, Saskatchewan, Canada University of Saskatchewan
2012 Shanghai, China Polar Research Institute of China
2011 Hanover, New Hampshire, USA Dartmouth College
2010 Hermanus, South Africa SANSA Space Science (previously the Hermanus Magnetic Observatory, HMO)
2009 Cargèse, Corsica, France Le Centre national de la recherche scientifique (CNRS)
2008 Newcastle, New South Wales, Australia School of Mathematical & Physical Sciences, University of Newcastle
2007 Abashiri, Hokkaido, Japan Institute for Space-Earth Environmental Research, Nagoya University
2006 Chincoteague, USA Johns Hopkins University, Applied Physics Laboratory (APL)
2005 Cumbria, UK British Antarctic Survey (BAS)
2004 Saskatoon, Canada University of Saskatchewan
2003 Kiljava, Finland
2002 Valdez, Alaska, USA Geophysical Institute, University of Alaska Fairbanks
2001 Venice, Italy
2000 Beechworth, Victoria, Australia La Trobe University
1999 Reykjavik, Iceland
1998 Tokyo, Japan National Institute of Polar Research (NIPR)
1997 Ithala Game Reserve, South Africa
1996 Ellicott City, MD, USA
1995 Madingley Hall, Cambridge, UK

References

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Research papers

Research papers related to SuperDARN and related technologies

Real time display of SuperDarn radar

External links

Each participating university should be listed here. As these are ongoing research sites, these links are subject to change.

Northern Hemisphere Stations

Southern Hemisphere Stations

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