Tutorial on the design of hole-slot-type cavity magnetron using CST particle studio
We present a simple design method for the hole-slot-type cavity magnetron. Our design model includes all principal parts of magnetron, namely, the cathode, the resonant system, the interaction space, and the magnetic circuit. We first find structural, electrical, and magnetic parameters using empirical formulas. Then, using empirical values as initial guesses, we build and simulate the 3-D model of magnetron in CST Particle Studio. In CST, we show that the eigenmode solver is essential for proper mode excitation; then, we use particle tracking and particle-in-cell simulations for the desired magnetron operation. For a fast convergent result, we study the impact of design parameters on the magnetron performance. We apply this design procedure to an X-band hole-slot-type magnetron with eight resonators. We believe that our method provides designers a simple, fast, and reliable tool for hole-slot-type magnetron design. © 2012 IEEE.
| Yazar |
Isenlik, T. Yegin, K. |
| Yayın Türü | Article |
| Tek Biçim Adres | https://hdl.handle.net/20.500.11831/264 |
| Konu Başlıkları |
3-D modeling of magnetron
Cavity magnetron particle simulation X-band hole-slot-type cavity magnetron |
| Koleksiyonlar |
Araştırma Çıktıları | Ön Baskı | WoS | Scopus | TR-Dizin | PubMed 02- WoS İndeksli Yayınlar Koleksiyonu 03- Scopus İndeksli Yayınlar Koleksiyonu |
| Dergi Adı | IEEE Transactions on Plasma Science |
| Cild | 41 |
| Dergi Sayısı | 2 |
| Sayfalar | 296 - 304 |
| Yayın Tarihi | 2013 |
| Eser Adı [dc.title] | Tutorial on the design of hole-slot-type cavity magnetron using CST particle studio |
| Yazar [dc.contributor.author] | Isenlik, T. |
| Yazar [dc.contributor.author] | Yegin, K. |
| Yayın Türü [dc.type] | article |
| Özet [dc.description.abstract] | We present a simple design method for the hole-slot-type cavity magnetron. Our design model includes all principal parts of magnetron, namely, the cathode, the resonant system, the interaction space, and the magnetic circuit. We first find structural, electrical, and magnetic parameters using empirical formulas. Then, using empirical values as initial guesses, we build and simulate the 3-D model of magnetron in CST Particle Studio. In CST, we show that the eigenmode solver is essential for proper mode excitation; then, we use particle tracking and particle-in-cell simulations for the desired magnetron operation. For a fast convergent result, we study the impact of design parameters on the magnetron performance. We apply this design procedure to an X-band hole-slot-type magnetron with eight resonators. We believe that our method provides designers a simple, fast, and reliable tool for hole-slot-type magnetron design. © 2012 IEEE. |
| Kayıt Giriş Tarihi [dc.date.accessioned] | 2020-03-17 |
| Yayın Tarihi [dc.date.issued] | 2013 |
| Açık Erişim Tarihi [dc.date.available] | 2020-03-17 |
| Dil [dc.language.iso] | eng |
| Konu Başlıkları [dc.subject] | 3-D modeling of magnetron |
| Konu Başlıkları [dc.subject] | Cavity magnetron |
| Konu Başlıkları [dc.subject] | particle simulation |
| Konu Başlıkları [dc.subject] | X-band hole-slot-type cavity magnetron |
| Haklar [dc.rights] | info:eu-repo/semantics/closedAccess |
| ISSN [dc.identifier.issn] | 00933813 |
| Yayının ilk sayfa sayısı [dc.identifier.startpage] | 296 |
| Yayının son sayfa sayısı [dc.identifier.endpage] | 304 |
| Dergi Adı [dc.relation.journal] | IEEE Transactions on Plasma Science |
| Dergi Sayısı [dc.identifier.issue] | 2 |
| Cild [dc.identifier.volume] | 41 |
| Tek Biçim Adres [dc.identifier.uri] | https://hdl.handle.net/20.500.11831/264 |
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