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| Title: | A very brief description of LOFAR -- the Low Frequency Array |
| Author(s): | ; Haarlem, M.P. van; Bruyn, A.G. de; Braun, R.; Röttgering, H.J.A.; Stappers, B.; Boland, W.H.W.M.; Butcher, H.R.; Geus, E.J. de; Koopmans, L.V.; Fender, R.P.; Kuijpers, H.J.M.E.; Miley, G.K.; Schilizzi, R.T.; Vogt, C.; Wijers, R.A.M.J.; Wise, M.W.; Brouw, W.N.; Hamaker, J.P.; Noordam, J.E.; Oosterloo, T.; Bähren, L.; Brentjens, M.A.; Wijnholds, S.J.; Bregman, J.D.; Cappellen, W.A. van; Gunst, A.W.; Kant, G.W.; ; Schaaf, K. van der; Vos, C.M. de |
| Publication year: | 2007 |
| Source: | Highlights of Astronomy, vol. 14, (2007), pp. 386-387 |
| ISSN: | 1539-2996 |
| Related links: | http://ukads.nottingham.ac.uk/abs/2007HiA....14..386F |
| Publication type: | Article / Letter to editor |
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Please use this identifier to cite or link to this item : https://hdl.handle.net/2066/35235 
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| Subject: | Astronomy |
| Organization: | Astrophysics Research Institute for Philosophy, Theology and Religious Studies |
| Former Organization: | Research Institute for Religious Studies & Theology |
| Journal title: |
Highlights of Astronomy
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| Volume: | vol. 14 |
| Page start: | p. 386 |
| Page end: | p. 387 |
| Abstract: |
LOFAR (Low Frequency Array) is an innovative radio telescope optimized for the frequency range 30-240 MHz. The telescope is realized as a phased aperture array without any moving parts. Digital beam forming allows the telescope to point to any part of the sky within a second. Transient buffering makes retrospective imaging of explosive short-term events possible. The scientific focus of LOFAR will initially be on four key science projects (KSPs): 1) detection of the formation of the very first stars and galaxies in the universe during the so-called epoch of reionization by measuring the power spectrum of the neutral hydrogen 21-cm line (Shaver et al. 1999) on the ~5' scale; 2) low-frequency surveys of the sky with of order $10^8$ expected new sources; 3) all-sky monitoring and detection of transient radio sources such as gamma-ray bursts, x-ray binaries, and exo-planets (Farrell et al. 2004); and 4) radio detection of ultra-high energy cosmic rays and neutrinos (Falcke & Gorham 2003) allowing for the first time access to particles beyond 10^21 eV (Scholten et al. 2006). Apart from the KSPs open access for smaller projects is also planned. Here we give a brief description of the telescope.
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