The Effects of Integration and Open Education on Mathematics Achievement                in the Early Primary Grades in Israel

Experimental results are presented of the first successful gyrotron backward wave oscillator (gyro-BWO) with continuous frequency tuning near the low-terahertz region. A helically corrugated interaction region was used to allow efficient interaction over a wide frequency band at the second harmonic of the electron cyclotron frequency without parasitic output. The gyro-BWO generated a maximum output power of 12 kW when driven by a 40 kV, 1.5 A, annular-shaped large-orbit electron beam and achieved a frequency tuning band of 88-102.5 GHz by adjusting the cavity magnetic field. The performance of the gyro-BWO is consistent with 3D particle-in-cell numerical simulations.

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Multi-Mode Coupling Wave Theory for Helically Corrugated Waveguide

Zhang

Ronald

et al. 2012

IEEE Trans. Microwave Theory Techn.

101

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Helically corrugated waveguide has been used in various applications such as gyro-backward wave oscillators, gyro-traveling wave amplifier and microwave pulse compressor. A fast prediction of the dispersion characteristic of the operating eigenwave is very important when designing a helically corrugated waveguide. In this paper, multi-mode coupling wave equations were developed based on the perturbation method. This method was then used to analyze a five-fold helically corrugated waveguide used for X-band microwave compression. The calculated result from this analysis was found to be in excellent agreement with the results from numerical simulation using CST Microwave Studio and vector network analyzer measurements.

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Broadband Amplification of Low-Terahertz Signals Using Axis-Encircling Electrons in a Helically Corrugated Interaction Region

et al. 2017

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Experimental results are presented of a broadband, high power, gyrotron traveling wave amplifier (gyro-TWA) operating in the (75-110)-GHz frequency band and based on a helically corrugated interaction region. The second harmonic cyclotron mode of a 55-keV, 1.5-A, axis-encircling electron beam is used to resonantly interact with a traveling TE_{21}-like eigenwave achieving broadband amplification. The gyro-TWA demonstrates a 3-dB gain bandwidth of at least 5.5 GHz in the experimental measurement with 9 GHz predicted for a wideband drive source with a measured unsaturated output power of 3.4 kW and gain of 36-38 dB. The approach may allow a gyro-TWA to operate at 1 THz.

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Wide-Band ${\hbox{HE}}_{11}$ Mode Terahertz Wave Windows for Gyro-Amplifiers

Donaldson

McElhinney

Zhang

et al. 2016

IEEE Trans. THz Sci. Technol.

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Broadband HE mode output windows, based on the multilayer concept, are studied for high power gyro-amplifiers operating in the low terahertz region. As the wave power in the hybrid HE mode is concentrated in the center of the circular waveguide, smaller reflection and better coupling to the fundamental free space Gaussian mode can be achieved for the windows. Two windows are designed for optimized performance through simulations for operation in two frequency ranges of 360-400 GHz and 90-100 GHz. The simulated performance, practical constraints in realization and manufacturing methods of the 90-100 GHz window is discussed. This window was constructed and microwave properties measured showing a lower than 27 dB reflection. This result agrees with simulation data which validates the simulation methodology and effectiveness of the design.

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A W-Band Multi-Layer Microwave Window for Pulsed Operation of Gyro-Devices

Donaldson

Zhang

et al. 2013

IEEE Microw. Wireless Compon. Lett.

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Craig R. Donaldson

High Power Wideband Gyrotron Backward Wave Oscillator Operating towards the Terahertz Region

Multi-Mode Coupling Wave Theory for Helically Corrugated Waveguide

Broadband Amplification of Low-Terahertz Signals Using Axis-Encircling Electrons in a Helically Corrugated Interaction Region

Wide-Band ${\hbox{HE}}_{11}$ Mode Terahertz Wave Windows for Gyro-Amplifiers

A W-Band Multi-Layer Microwave Window for Pulsed Operation of Gyro-Devices

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