New science drivers have recently emerged in radio astronomy for observation of low-frequency radio waves, below 30 MHz. Exploring this frequency requires a space-based radio telescope with a very large aperture that is impossible to realize in a monolithic fashion. A distributed system consisting of a swarm of 50 or more nano-satellites is used to realize such an instrument. Equipped with low-frequency antennas, the very small spacecraft provide the needed aperture to capture and sample ultra-long electromagnetic waves. The distributed low-frequency telescope has to fulfill multiple tasks in which drawbacks such as the size and the limited power available are overcome by the large number of satellites. Sending the processed data to a base ...
Nano-satellites are small (less than 10 kg) and low cost satellites of which quite a number has been...
OLFAR, Orbiting Low Frequency Antennas for Radio Astronomy, will be a space mission to observe the u...
New interesting astronomical science drivers for very low frequency radio astronomy have emerged, ra...
New science drivers have recently emerged in radio astronomy for observation of low-frequency radio ...
The Orbiting Low Frequency Antennas for Radio Astronomy (OLFAR) project aims to develop a radio tele...
Recent technological advancements have led to the emergence of a new miniaturized satellite platform...
The Orbiting Low Frequency Antennas for Radio Astronomy (OLFAR) project is aimed at developing a low...
Low-frequency space observation is one of the developing directions in radio astronomy, as scientist...
In radio astronomy, as in astronomy in general, a wide range of frequencies is observed as each spec...
Earth-based radio astronomy is currently limited to frequencies of 30 MHz and higher, due to the inf...
Radio astronomy has been moving towards lower frequencies in recent years. This trend started with E...
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...
The inter-satellite link (ISL) in swarm and constellation missions is a key enabler in the autonomy ...
It seems very likely that missions with nano-satellites in professional scientific or commercial app...
Nano-satellites are small (less than 10 kg) and low cost satellites of which quite a number has been...
OLFAR, Orbiting Low Frequency Antennas for Radio Astronomy, will be a space mission to observe the u...
New interesting astronomical science drivers for very low frequency radio astronomy have emerged, ra...
New science drivers have recently emerged in radio astronomy for observation of low-frequency radio ...
The Orbiting Low Frequency Antennas for Radio Astronomy (OLFAR) project aims to develop a radio tele...
Recent technological advancements have led to the emergence of a new miniaturized satellite platform...
The Orbiting Low Frequency Antennas for Radio Astronomy (OLFAR) project is aimed at developing a low...
Low-frequency space observation is one of the developing directions in radio astronomy, as scientist...
In radio astronomy, as in astronomy in general, a wide range of frequencies is observed as each spec...
Earth-based radio astronomy is currently limited to frequencies of 30 MHz and higher, due to the inf...
Radio astronomy has been moving towards lower frequencies in recent years. This trend started with E...
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...
The inter-satellite link (ISL) in swarm and constellation missions is a key enabler in the autonomy ...
It seems very likely that missions with nano-satellites in professional scientific or commercial app...
Nano-satellites are small (less than 10 kg) and low cost satellites of which quite a number has been...
OLFAR, Orbiting Low Frequency Antennas for Radio Astronomy, will be a space mission to observe the u...
New interesting astronomical science drivers for very low frequency radio astronomy have emerged, ra...