The Experts below are selected from a list of 1419 Experts worldwide ranked by ideXlab platform
Ricky Ang - One of the best experts on this subject based on the ideXlab platform.
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Guest Editorial The Sixteenth Special Issue on High-Power Microwave Generation
IEEE Transactions on Plasma Science, 2016Co-Authors: Rebecca Seviour, Don Shiffler, John Jelonnek, Chris Grabowski, Sameer Hemmady, Ricky AngAbstract:The publication of this Sixteenth Special Issue on High-Power Microwave (HPM) Generation continues a series first published in December 1985. Since the first volume, the field has witnessed tremendous changes and advances, with research spanning the range of academic institutions, corporate research groups, government laboratories, from across the world. The subject areas addressed have evolved, as well. In 1985, the topics spanned five categories: 1) gyrotrons and Cyclotron-Resonance Devices; 2) free-electron lasers; 3) virtual-cathode and reflex oscillators; 4) Cerenkov radiation generators; and 5) magnetrons, klystrons, and backward-wave oscillators. These areas still remain as active areas of research interest, now augmented by the rapid advance of particle-in-cell codes and electromagnetic solvers as tools to model and help understand HPM Devices.
Julie E. Lawrance - One of the best experts on this subject based on the ideXlab platform.
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Guest Editorial The 17th Special Issue on High Power Microwave Generation
IEEE Transactions on Plasma Science, 2018Co-Authors: B. S. Stutzman, Jim Browning, Julie E. LawranceAbstract:The publication of this 17th Special Issue on High Power Microwave (HPM) Generation continues a series first published in December 1985. Since the first volume, the entire HPM field has undergone tremendous changes and advances. While initially being work done in government institutions, research now spans the range of academic institutions, corporate research groups, and government laboratories from across the world. The subject areas addressed have evolved, as well. In 1985, the topics spanned five categories: 1) gyrotrons and Cyclotron-Resonance Devices; 2) free-electron lasers; 3) virtual-cathode and reflex oscillators; 4) Cerenkov radiation generators; and 5) magnetrons, klystrons, and backward-wave oscillators. These areas still remain active areas of research interest, now augmented by the rapid advance of particle-in-cell codes and electromagnetic solvers as tools to model and help understand HPM Devices.
V.n. Manuilov - One of the best experts on this subject based on the ideXlab platform.
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POWERFUL ELECTRON BEAMS FOR Cyclotron Resonance Devices
Novel Materials Processing by Advanced Electromagnetic Energy Sources, 2005Co-Authors: V.n. ManuilovAbstract:Main versions of electron-optic systems to form powerful Helical Electron Beams (HEBs) for such Devices as gyrotrons, Large Orbit Gyrotrons, CARMs, gyro-TWTs and some others are specified. Demands to HEBs parameters are listed. Classification of HEBs formation systems is done. Ways to improve beam quality are traced. Different collector systems and their possibilities to dissipate the residual beam energy are reviewed. Systems with depressed collectors are described.
Rebecca Seviour - One of the best experts on this subject based on the ideXlab platform.
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Guest Editorial The Sixteenth Special Issue on High-Power Microwave Generation
IEEE Transactions on Plasma Science, 2016Co-Authors: Rebecca Seviour, Don Shiffler, John Jelonnek, Chris Grabowski, Sameer Hemmady, Ricky AngAbstract:The publication of this Sixteenth Special Issue on High-Power Microwave (HPM) Generation continues a series first published in December 1985. Since the first volume, the field has witnessed tremendous changes and advances, with research spanning the range of academic institutions, corporate research groups, government laboratories, from across the world. The subject areas addressed have evolved, as well. In 1985, the topics spanned five categories: 1) gyrotrons and Cyclotron-Resonance Devices; 2) free-electron lasers; 3) virtual-cathode and reflex oscillators; 4) Cerenkov radiation generators; and 5) magnetrons, klystrons, and backward-wave oscillators. These areas still remain as active areas of research interest, now augmented by the rapid advance of particle-in-cell codes and electromagnetic solvers as tools to model and help understand HPM Devices.
B. S. Stutzman - One of the best experts on this subject based on the ideXlab platform.
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Guest Editorial The 17th Special Issue on High Power Microwave Generation
IEEE Transactions on Plasma Science, 2018Co-Authors: B. S. Stutzman, Jim Browning, Julie E. LawranceAbstract:The publication of this 17th Special Issue on High Power Microwave (HPM) Generation continues a series first published in December 1985. Since the first volume, the entire HPM field has undergone tremendous changes and advances. While initially being work done in government institutions, research now spans the range of academic institutions, corporate research groups, and government laboratories from across the world. The subject areas addressed have evolved, as well. In 1985, the topics spanned five categories: 1) gyrotrons and Cyclotron-Resonance Devices; 2) free-electron lasers; 3) virtual-cathode and reflex oscillators; 4) Cerenkov radiation generators; and 5) magnetrons, klystrons, and backward-wave oscillators. These areas still remain active areas of research interest, now augmented by the rapid advance of particle-in-cell codes and electromagnetic solvers as tools to model and help understand HPM Devices.
