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2 research outputs found

Assessment of rfi measurements for lofar

Author: Bentum M.J.
Boonstra A.J.
Millenaar R.P.
Publication venue: Proceedings of Science (POS)
Publication date: 01/01/2010
Field of study

In the North-Western part of Europe, ASTRON is building the world-largest largest low-frequency radio telescope. The telescope is based on phased array principles and is known as the LOw Frequency ARray (LOFAR). LOFAR is optimized for detecting astronomical signals in the 30-80 MHz and 120-240 MHz frequency windows. Since this part of the spectrum is in extensive use by others, special care must be taken in the selection of possible out-station sites for LOFAR. RFI measurements were made to be sure that the radio spectrum at the potential out-station locations is suitable for LOFAR operations. An assessment procedure is presented here and specific issues are discussed, such as the impact of Digital Video Broadcast, and wind turbines. The results of\ud the RFI observations has generated a list of specifications for (international) LOFAR out-stations

University of Twente Research Information

The MeerKAT Galaxy Cluster Legacy Survey: I. Survey overview and highlights

Author: Abbott T.D.
Adam R.M.
Adams G.
Aldera M.A.
Bauermeister E.F.
Bennett T.G.H.
Bietenholz M.F.
Bode W.A.
Botha A.G.
Botha D.H.
Brederode L.R.S.
Bruggen M.
Buchner S.
Burger J.P.
Button Charissa
Camilo F.
Cheetham T.
Chen H.
Chibueze J.O.
Clarke T.E.
Cotton W.D.
De Gasperin F.
De Villiers D.I.L.
Deane Roger
Dikgale-Mahlakoana M.A.
Du Toit L.J.
Esterhuyse S.W.P.
Fadana G.
Fanaroff B.L.
Fataar S.
Foley A.R.
Fourie D.J.
Frank B.S.
Gamatham R.R.G.
Gatsi T.G.
Geyer M.
Goedhart S.
Gouws M.
Gumede S.C.
Heywood I.
Hilton M.
Hlakola M.J.
Hokwana A.
Hoosen S.W.
Horn D.M.
Horrell J.M.G.
Hugo Benjamin V.
Ianjamasimanana R.
Isaacson A.R.
Jonas J.L.
Jordaan J.D.B.
Joubert A.F.
Jozsa Gyula I.G.
Julie R.P.M.
Kapp F.B.
Kasper V.A.
Kenyon J.S.
Kesebonye K.C.
Knowles K.
Kolokythas K.
Kotze A.G.
Kotze P.P.A.
Kraan-Korteweg R.C.
Kriek N.
Kriel H.
Krishnan V.K.
Kusel T.W.
Lawrie G.
Legodi L.S.
Lehmensiek R.
Liebenberg D.
Lochner M.
Lord R.T.
Loubser S.I.
Lunsky B.M.
Madisa K.
Magnus L.G.
Main J.P.L.
Makhaba A.
Makhathini Sphesihle
Malan J.A.
Manley J.R.
Marais S.J.
Marchegiani P.
Maree M.D.J.
Martens A.
Mauch T.
McAlpine K.
Merry B.C.
Mhlahlo N.
Millenaar R.P.
Mokone O.J.
Monama T.E.
Moodley K.
Mphego M.C.
Murphy E.
Namumba B.
New W.S.
Ngcebetsha B.
Ngoasheng K.J.
Ockards M.T.
Oozeer N.
Otto A.J.
Parekh V.
Passmoor S.S.
Patel A.A.
Peens-Hough A.
Perkins S.J.
Pillay D.S.
Ramaila A.J.T.
Ramanujam N.M.
Ramatsoku Mpati
Ramudzuli Z.R.
Ranchod Shilpa
Ratcliffe S.M.
Renil R.
Retana-Montenegro E.
Robyntjies A.
Rudnick L.
Rust A.N.
Salie S.
Sambu N.
Schollar C.T.G.
Schwardt L.C.
Schwartz R.L.
Sebokolodi Lerato
Serylak M.
Siebrits R.
Sikhosana S.P.
Sirothia S.K.
Slabber M.
Smirnov Oleg M.
Sofeya L.
Taljaard B.
Tasse C.
Thorat Kshitij
Tiplady A.J.
Toruvanda O.
Twum S.N.
Van Balla T.J.
Van der Byl A.
Van der Merwe C.
Van Dyk C.L.
Van Tonder V.
Van Wyk R.
Venter A.J.
Venter M.
Venturi T.
Welz M.G.
Williams L.P.
Xaia B.
Publication venue: 'EDP Sciences'
Publication date: 01/01/2022
Field of study

Please abstract in the article.The South African Radio Astronomy Observatory (SARAO), the National Research Foundation (NRF), the National Radio Astronomy Observatory, US National Science Foundation, the South African Research Chairs Initiative of the DSI/NRF, the SARAO HCD programme, the South African Research Chairs Initiative of the Department of Science and Innovation.http://www.aanda.orghj2022Physic

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