Mark A. Kemp scite author profile

Very low frequency communication systems (3 kHz–30 kHz) enable applications not feasible at higher frequencies. However, the highest radiation efficiency antennas require size at the scale of the wavelength (here, >1 km), making portable transmitters extremely challenging. Facilitating transmitters at the 10 cm scale, we demonstrate an ultra-low loss lithium niobate piezoelectric electric dipole driven at acoustic resonance that radiates with greater than 300x higher efficiency compared to the previous state of the art at a comparable electrical size. A piezoelectric radiating element eliminates the need for large impedance matching networks as it self-resonates at the acoustic wavelength. Temporal modulation of this resonance demonstrates a device bandwidth greater than 83x beyond the conventional Bode-Fano limit, thus increasing the transmitter bitrate while still minimizing losses. These results will open new applications for portable, electrically small antennas.

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CERN Yellow Reports: Monographs, Vol 2 (2018): The Compact Linear e+e− Collider (CLIC) : 2018 Summary Report

Burrows¹,

Lasheras²,

Linssen³

et al. 1970

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Ferroelectric plasma thruster for microspacecraft propulsion

Kemp

Kovaleski

2006

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This paper presents a technology in microthruster design: the ferroelectric plasma thruster (FEPT). The FEPT utilizes an applied rf electric field to create plasma on the surface of a ferroelectric dielectric. Acceleration of ions from this plasma provides thrust. Advantages of the FEPT include emission of both electrons and ions leading to self-neutralization, creation of plasma, and acceleration of ions with a single power supply, and application of thrust in a short amount of time. We present the concept of the thruster, operational physics, as well as experimental results demonstrating plasma creation and ion acceleration. These results along with plasma spectroscopy allow us to calculate thruster parameters.

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Thrust Measurements of the Ferroelectric Plasma Thruster

Kemp

Kovaleski

2008

IEEE Trans. Plasma Sci.

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Final design of the SLAC P2 Marx klystron modulator

Kemp

Benwell

Burkhart

et al. 2011

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Mark A. Kemp

A high Q piezoelectric resonator as a portable VLF transmitter

CERN Yellow Reports: Monographs, Vol 2 (2018): The Compact Linear e+e− Collider (CLIC) : 2018 Summary Report

Ferroelectric plasma thruster for microspacecraft propulsion

Thrust Measurements of the Ferroelectric Plasma Thruster

Final design of the SLAC P2 Marx klystron modulator

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