The research of the Advanced Radio Instrumentation Group (ARIG) is focused on the design and development of low noise amplifiers (LNAs) and front-end receiver instrumentation, primarily for use in astronomical instrumentation, often operating at cryogenic temperatures to minimise their noise contribution. Advances in materials, design and fabrication technology has now allowed LNAs to become competitive with other technologies, such as SIS mixers, at frequencies beyond 100 GHz. Through the ALMA Band 2+3 project we have shown that recent technological developments in cryogenic monolithic microwave integrated circuit (MMIC) high electron mobility transistor (HEMT) amplifiers provide an opportunity to extend the originally planned onsky bandwi...
This PhD thesis presents the work that was done developing radioastronomy instrumentation. The first...
This paper demonstrates two designs of extremely low noise amplifiers in the low frequency range of ...
In most radio astronomy instrumentation, cryogenic low noise amplifiers (LNA) are used as intermedia...
Recent advancements in transistor technology, such as the 35 nm InP HEMT, allow for the development ...
MMIC Broadband Low Noise Amplifiers (LNA) for radio astronomy applications with 100 nm GaAs metamorp...
Two broadband very low-noise amplifiers operating in the frequency range from 4 to 12 GHz at cryogen...
Abstract—In this paper a new design of MMIC based LNA is outlined. This design uses a discrete 100-n...
instrumentation activities, several low noise, low power consumption cryogenic amplifiers were devel...
A cryogenic low noise amplifier that operates across the E and W-bands, from 65 GHz to 116 GHz, has ...
We present the results of a development activity for cryogenic Low Noise Amplifiers based on HEMT te...
Monolithic (MMIC) and discrete transistor (MIC) low noise amplifiers are compared on the basis of pe...
0.5–13 and 24–40 GHz broadband cryogenic monolithic- microwave integrated-circuit low-noise amplifie...
In this paper, monolithic microwave integrated circuit (MMIC) broadband low-noise amplifiers (LNAs) ...
Monolithic (MMIC) and discrete transistor (MIC) low noise amplifiers are compared on the basis of pe...
To achieve the low noise and wide bandwidth required for millimeter wavelength astronomy application...
This PhD thesis presents the work that was done developing radioastronomy instrumentation. The first...
This paper demonstrates two designs of extremely low noise amplifiers in the low frequency range of ...
In most radio astronomy instrumentation, cryogenic low noise amplifiers (LNA) are used as intermedia...
Recent advancements in transistor technology, such as the 35 nm InP HEMT, allow for the development ...
MMIC Broadband Low Noise Amplifiers (LNA) for radio astronomy applications with 100 nm GaAs metamorp...
Two broadband very low-noise amplifiers operating in the frequency range from 4 to 12 GHz at cryogen...
Abstract—In this paper a new design of MMIC based LNA is outlined. This design uses a discrete 100-n...
instrumentation activities, several low noise, low power consumption cryogenic amplifiers were devel...
A cryogenic low noise amplifier that operates across the E and W-bands, from 65 GHz to 116 GHz, has ...
We present the results of a development activity for cryogenic Low Noise Amplifiers based on HEMT te...
Monolithic (MMIC) and discrete transistor (MIC) low noise amplifiers are compared on the basis of pe...
0.5–13 and 24–40 GHz broadband cryogenic monolithic- microwave integrated-circuit low-noise amplifie...
In this paper, monolithic microwave integrated circuit (MMIC) broadband low-noise amplifiers (LNAs) ...
Monolithic (MMIC) and discrete transistor (MIC) low noise amplifiers are compared on the basis of pe...
To achieve the low noise and wide bandwidth required for millimeter wavelength astronomy application...
This PhD thesis presents the work that was done developing radioastronomy instrumentation. The first...
This paper demonstrates two designs of extremely low noise amplifiers in the low frequency range of ...
In most radio astronomy instrumentation, cryogenic low noise amplifiers (LNA) are used as intermedia...