Search for dissertations about: "InP high-electron mobility transistor InP HEMT"
Showing result 1 - 5 of 13 swedish dissertations containing the words InP high-electron mobility transistor InP HEMT.
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1. InP High Electron Mobility Transistor Design for Cryogenic Low Noise Amplifiers
Abstract : The InGaAs/InAlAs/InP high electron mobility transistor (InP HEMT) is the superior technology for the most demanding low-noise and high-speed microwave and millimeter-wave applications, in particular in radio astronomy and deep-space communication. InP HEMT has enabled cryogenic low noise amplifier (LNA) designs with noise temperatures about ten times the quantum noise limit from sub GHz up to 120 GHz. READ MORE
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2. Cryogenic InP High Electron Mobility Transistors in a Magnetic Field
Abstract : The InGaAs-InAlAs-InP high electron mobility transistor (InP HEMT) is the preferred active device used in a cryogenic low noise amplifier (LNA) for sensitive detection of microwave signals. In this thesis it is demonstrated that the InP HEMT, when placed in a magnetic field, has a strong angular dependence in its output current. READ MORE
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3. InP HEMT Technology and Applications
Abstract : Indium phosphide high electron mobility transistors (InGaAs/InAlAs/InP HEMTs) exhibit the highest cut-off frequencies and the lowest microwave noise figures of all transistor technologies. Both InP HEMT technology and associated circuit demonstrators are therefore interesting to explore further. READ MORE
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4. InP High Electron Mobility Transistors for Cryogenic Low-Noise and Low-Power Amplifiers
Abstract : The InAlAs/InGaAs/InP high-electron mobility transistor (InP HEMT) is the preferred low-noise device in cryogenic low-noise amplifiers (LNAs) operating at 5-15 K. Such LNAs are utilized in microwave and millimeter-wave detection in radio astronomy. READ MORE
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5. Design and Fabrication of InP High Electron Mobility Transistors for Cryogenic Low-Noise Amplifiers
Abstract : High electron mobility transistor (InP HEMT) cryogenic low noise amplifiers (LNAs) have made significant improvements in noise and gain following decades of development. Applications are found from radio astronomy to quantum computing. READ MORE