The Orbiting Low Frequency Antennas for Radio Astronomy (OLFAR) project is investigating an orbiting low frequency radio telescope. Due to strong ionospheric interference and Radio Frequency Interference (RFI) found at frequencies below 30 MHz, such an instrument is not feasible on Earth, hence the proposed solution of a swarm of autonomous nano-satellites sent to a remote location in space. On each satellite, the astronom- ical antenna consists of three orthogonal dipoles designed to work within the constraints of a nano-satellite. Due to mechanical constraints, the dipoles are not optimally integrated into the nano-satellites from an antenna point of view. Therefore, the e_ect of the _nite non uniform ground plane, the non symmetrical ant...
In radio astronomy, as in astronomy in general, a wide range of frequencies is observed as each spec...
The Orbiting Low Frequency Antennas for Radio Astronomy (OLFAR) project is investigating the feasibi...
Recently new and interesting science drivers have emerged for very low frequency radio astronomy fro...
The Orbiting Low Frequency Antennas for Radio Astronomy (OLFAR) project is investigating an orbiting...
Recent technological advancements have led to the emergence of a new miniaturized satellite platform...
New interesting astronomical science drivers for very low frequency radio astronomy have emerged, ra...
It seems very likely that missions with nano-satellites in professional scientific or commercial app...
It seems very likely that missions with nano-satellites in professional scientific or commercial app...
OLFAR, Orbiting Low Frequency Antennas for Radio Astronomy, will be a space mission to observe the u...
Initiatives to perform space-based radio astronomy below 30 MHz have emerged recently, since novel t...
New interesting astronomical science drivers for very low frequency radio astronomy have emerged, ra...
Radio astronomical observations at low frequencies are affected by Earth's ionosphere. This forces r...
The Orbiting Low Frequency Antennas for Radio Astronomy (OLFAR) project aims to develop a space-base...
The past two decades have witnessed a renewed interest in low frequency radio astronomy, with a part...
Earth-based radio astronomy is currently limited to frequencies of 30 MHz and higher, due to the inf...
In radio astronomy, as in astronomy in general, a wide range of frequencies is observed as each spec...
The Orbiting Low Frequency Antennas for Radio Astronomy (OLFAR) project is investigating the feasibi...
Recently new and interesting science drivers have emerged for very low frequency radio astronomy fro...
The Orbiting Low Frequency Antennas for Radio Astronomy (OLFAR) project is investigating an orbiting...
Recent technological advancements have led to the emergence of a new miniaturized satellite platform...
New interesting astronomical science drivers for very low frequency radio astronomy have emerged, ra...
It seems very likely that missions with nano-satellites in professional scientific or commercial app...
It seems very likely that missions with nano-satellites in professional scientific or commercial app...
OLFAR, Orbiting Low Frequency Antennas for Radio Astronomy, will be a space mission to observe the u...
Initiatives to perform space-based radio astronomy below 30 MHz have emerged recently, since novel t...
New interesting astronomical science drivers for very low frequency radio astronomy have emerged, ra...
Radio astronomical observations at low frequencies are affected by Earth's ionosphere. This forces r...
The Orbiting Low Frequency Antennas for Radio Astronomy (OLFAR) project aims to develop a space-base...
The past two decades have witnessed a renewed interest in low frequency radio astronomy, with a part...
Earth-based radio astronomy is currently limited to frequencies of 30 MHz and higher, due to the inf...
In radio astronomy, as in astronomy in general, a wide range of frequencies is observed as each spec...
The Orbiting Low Frequency Antennas for Radio Astronomy (OLFAR) project is investigating the feasibi...
Recently new and interesting science drivers have emerged for very low frequency radio astronomy fro...