Home > Research > Publications & Outputs > THz Backward-wave oscillators for plasma diagno...

Electronic data

Links

Text available via DOI:

View graph of relations

THz Backward-wave oscillators for plasma diagnostic in nuclear fusion

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

Published

Standard

THz Backward-wave oscillators for plasma diagnostic in nuclear fusion. / Paoloni, Claudio; Yue, Lingna; Tang, Xiaopin et al.
Plasma Sciences (ICOPS), 2015 IEEE International Conference on. IEEE, 2015.

Research output: Contribution in Book/Report/Proceedings - With ISBN/ISSNConference contribution/Paperpeer-review

Harvard

Paoloni, C, Yue, L, Tang, X, Zhang, F, Popovic, B, Himes, L, Barchfeld, R, Gamzina, D, Mineo, M, Letizia, R & Luhmann Jr., NC 2015, THz Backward-wave oscillators for plasma diagnostic in nuclear fusion. in Plasma Sciences (ICOPS), 2015 IEEE International Conference on. IEEE, ICOPS 2015, Antalya, Turkey, 24/05/15. https://doi.org/10.1109/PLASMA.2015.7179508

APA

Paoloni, C., Yue, L., Tang, X., Zhang, F., Popovic, B., Himes, L., Barchfeld, R., Gamzina, D., Mineo, M., Letizia, R., & Luhmann Jr., N. C. (2015). THz Backward-wave oscillators for plasma diagnostic in nuclear fusion. In Plasma Sciences (ICOPS), 2015 IEEE International Conference on IEEE. https://doi.org/10.1109/PLASMA.2015.7179508

Vancouver

Paoloni C, Yue L, Tang X, Zhang F, Popovic B, Himes L et al. THz Backward-wave oscillators for plasma diagnostic in nuclear fusion. In Plasma Sciences (ICOPS), 2015 IEEE International Conference on. IEEE. 2015 doi: 10.1109/PLASMA.2015.7179508

Author

Paoloni, Claudio ; Yue, Lingna ; Tang, Xiaopin et al. / THz Backward-wave oscillators for plasma diagnostic in nuclear fusion. Plasma Sciences (ICOPS), 2015 IEEE International Conference on. IEEE, 2015.

Bibtex

@inproceedings{222543c30f504aa588b00e818bb5a68d,
title = "THz Backward-wave oscillators for plasma diagnostic in nuclear fusion",
abstract = "Summary form only given. The understanding of plasma turbulence in nuclear fusion is related to the availability of powerful THz sources and the possibility to map wider plasma regions. A novel approach to realize compact THz sources to be implemented in the plasma diagnostic at NSTX experiment (Princeton Plasma Physics Laboratory, USA) is reported.Two novel 0.346 THz Backward-Wave Oscillators (BWOs) have been designed and are presently in the fabrication phase. One BWO is based on the Double Staggered Grating (DSG) that supports a sheet electron beam to provide a high output power; the second BWO is based on the Double Corrugated Waveguide (DCW) that supports a cylindrical electron beam generated by a conventional Pierce gun. The performance of both the BWOs was computed by Particle-in-cells (PIC) simulations. The DSG-BWO provides about 1W of output power with a beam current of 10 mA and a beam voltage of 16.8 kV. The DCW-BWO provides 0.74W output power with 10 mA beam current and 13 kV beam voltage. The DSG and the DCW have been realized by state of the art prototype nano-CNC milling machine (DMG Mori-Seiki) that permits one to achieve performance, in term of cost and surface finishing, unavailable with any other technology. It is the first time that this technique is applied to structures above 0.3 THz. The high output power of both the BWOs demonstrates the importance of novel approaches in the emerging field of THz vacuum electron devices.",
author = "Claudio Paoloni and Lingna Yue and Xiaopin Tang and Fuzhi Zhang and Branko Popovic and Logan Himes and Robert Barchfeld and Diana Gamzina and Mauro Mineo and Rosa Letizia and {Luhmann Jr.}, {Neville C.}",
year = "2015",
month = may,
day = "24",
doi = "10.1109/PLASMA.2015.7179508",
language = "English",
booktitle = "Plasma Sciences (ICOPS), 2015 IEEE International Conference on",
publisher = "IEEE",
note = "ICOPS 2015 ; Conference date: 24-05-2015 Through 28-05-2015",

}

RIS

TY - GEN

T1 - THz Backward-wave oscillators for plasma diagnostic in nuclear fusion

AU - Paoloni, Claudio

AU - Yue, Lingna

AU - Tang, Xiaopin

AU - Zhang, Fuzhi

AU - Popovic, Branko

AU - Himes, Logan

AU - Barchfeld, Robert

AU - Gamzina, Diana

AU - Mineo, Mauro

AU - Letizia, Rosa

AU - Luhmann Jr., Neville C.

PY - 2015/5/24

Y1 - 2015/5/24

N2 - Summary form only given. The understanding of plasma turbulence in nuclear fusion is related to the availability of powerful THz sources and the possibility to map wider plasma regions. A novel approach to realize compact THz sources to be implemented in the plasma diagnostic at NSTX experiment (Princeton Plasma Physics Laboratory, USA) is reported.Two novel 0.346 THz Backward-Wave Oscillators (BWOs) have been designed and are presently in the fabrication phase. One BWO is based on the Double Staggered Grating (DSG) that supports a sheet electron beam to provide a high output power; the second BWO is based on the Double Corrugated Waveguide (DCW) that supports a cylindrical electron beam generated by a conventional Pierce gun. The performance of both the BWOs was computed by Particle-in-cells (PIC) simulations. The DSG-BWO provides about 1W of output power with a beam current of 10 mA and a beam voltage of 16.8 kV. The DCW-BWO provides 0.74W output power with 10 mA beam current and 13 kV beam voltage. The DSG and the DCW have been realized by state of the art prototype nano-CNC milling machine (DMG Mori-Seiki) that permits one to achieve performance, in term of cost and surface finishing, unavailable with any other technology. It is the first time that this technique is applied to structures above 0.3 THz. The high output power of both the BWOs demonstrates the importance of novel approaches in the emerging field of THz vacuum electron devices.

AB - Summary form only given. The understanding of plasma turbulence in nuclear fusion is related to the availability of powerful THz sources and the possibility to map wider plasma regions. A novel approach to realize compact THz sources to be implemented in the plasma diagnostic at NSTX experiment (Princeton Plasma Physics Laboratory, USA) is reported.Two novel 0.346 THz Backward-Wave Oscillators (BWOs) have been designed and are presently in the fabrication phase. One BWO is based on the Double Staggered Grating (DSG) that supports a sheet electron beam to provide a high output power; the second BWO is based on the Double Corrugated Waveguide (DCW) that supports a cylindrical electron beam generated by a conventional Pierce gun. The performance of both the BWOs was computed by Particle-in-cells (PIC) simulations. The DSG-BWO provides about 1W of output power with a beam current of 10 mA and a beam voltage of 16.8 kV. The DCW-BWO provides 0.74W output power with 10 mA beam current and 13 kV beam voltage. The DSG and the DCW have been realized by state of the art prototype nano-CNC milling machine (DMG Mori-Seiki) that permits one to achieve performance, in term of cost and surface finishing, unavailable with any other technology. It is the first time that this technique is applied to structures above 0.3 THz. The high output power of both the BWOs demonstrates the importance of novel approaches in the emerging field of THz vacuum electron devices.

U2 - 10.1109/PLASMA.2015.7179508

DO - 10.1109/PLASMA.2015.7179508

M3 - Conference contribution/Paper

BT - Plasma Sciences (ICOPS), 2015 IEEE International Conference on

PB - IEEE

T2 - ICOPS 2015

Y2 - 24 May 2015 through 28 May 2015

ER -