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تسجيل مستخدم جديدThe search for radio emission from the exoplanetary systems 55 Cancri, $upsilon$ Andromedae, and $tau$ Bo{o}tis using LOFAR beam-formed observations
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Observing planetary auroral radio emission is the most promising method to detect exoplanetary magnetic fields, the knowledge of which will provide valuable insights into the planets interior structure, atmospheric escape, and habitability. We present LOFAR-LBA circularly polarized beamformed observations of the exoplanetary systems 55 Cancri, $upsilon$ Andromedae, and $tau$ Bo{o}tis. We tentatively detect circularly polarized bursty emission from the $tau$ Bo{o}tis system in the range 14-21 MHz with a flux density of $sim$890 mJy and with a significance of $sim$3$sigma$. For this detection, no signal is seen in the OFF-beams, and we do not find any potential causes which might cause false positives. We also tentatively detect slowly variable circularly polarized emission from $tau$ Bo{o}tis in the range 21-30 MHz with a flux density of $sim$400 mJy and with a statistical significance of $>$8$sigma$. The slow emission is structured in the time-frequency plane and shows an excess in the ON-beam with respect to the two simultaneous OFF-beams. Close examination casts some doubts on the reality of the slowly varying signal. We discuss in detail all the arguments for and against an actual detection. Furthermore, a $sim$2$sigma$ marginal signal is found from the $upsilon$ Andromedae system and no signal is detected from the 55 Cancri system. Assuming the detected signals are real, we discuss their potential origin. Their source probably is the $tau$ Bootis planetary system, and a possible explanation is radio emission from the exoplanet $tau$ Bootis b via the cyclotron maser mechanism. Assuming a planetary origin, we derived limits for the planetary polar surface magnetic field strength, finding values compatible with theoretical predictions. Further low-frequency observations are required to confirm this possible first detection of an exoplanetary radio signal. [Abridged]
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We present archival Giant Metrewave Radio Telescope (GMRT) observations of two exoplanetary systems, $tau$ Bootis, and 55 Cancri, at 610 MHz and 150 MHz, respectively. Theoretical models predict these systems to have some of the highest expected flux
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Hot Jupiters have been proposed as a likely population of low frequency radio sources due to electron cyclotron maser emission of similar nature to that detected from the auroral regions of magnetized solar system planets. Such emission will likely b
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