ESA/NPL/Cambridge funded PhD studentship in the area of
applied electromagnetic metrology with a wide range of applications (eg. space exploration and technology, wireless communications, radio cosmology, etc).
The next generation radio cosmology instruments, the current and upcoming communication systems (e.g. 5G/6G), the rise of the Internet of Things and Energy Harvesting, as well as the future ultra-sensitive payloads for space exploration and space-based systems, all have something in common: the need to measure and characterise extremely low levels of electromagnetic emissions. Whether it is to be used in the optimal design of sensor networks in the presence of interference or in the calibration of highly sensitive payloads, the future of most wireless technologies relies on the use of very low levels of radiated power. In this project the student will join a growing team with experts from three key players in the field: the European Space Agency (www.esa.int), the Nati
ESA/NPL/Cambridge funded PhD studentship in the area of
applied electromagnetic metrology with a wide range of applications (eg. space exploration and technology, wireless communications, radio cosmology, etc).
The next generation radio cosmology instruments, the current and upcoming communication systems (e.g. 5G/6G), the rise of the Internet of Things and Energy Harvesting, as well as the future ultra-sensitive payloads for space exploration and space-based systems, all have something in common: the need to measure and characterise extremely low levels of electromagnetic emissions. Whether it is to be used in the optimal design of sensor networks in the presence of interference or in the calibration of highly sensitive payloads, the future of most wireless technologies relies on the use of very low levels of radiated power. In this project the student will join a growing team with experts from three key players in the field: the European Space Agency (www.esa.int), the Nati