DESIGN OF 35 GHZ GYROTRON FOR MATERIAL PROCESSING APPLICATIONS | Zendy

Nitin Kumar | Zendy; Udaybir Singh | Zendy; Anil Kumar | Zendy; Hasina Khatun | Zendy; T. P. Singh | Zendy; A. K. Sinha | Zendy

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DESIGN OF 35 GHZ GYROTRON FOR MATERIAL PROCESSING APPLICATIONS

Author(s) -

Nitin Kumar,

Udaybir Singh,

Anil Kumar,

Hasina Khatun,

T. P. Singh,

A. K. Sinha

Publication year - 2011

Publication title -

progress in electromagnetics research b

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.208

H-Index - 47

ISSN - 1937-6472

DOI - 10.2528/pierb10110206

Subject(s) - gyrotron , computer science , materials processing , engineering physics , nuclear engineering , physics , manufacturing engineering , power (physics) , engineering , quantum mechanics

The complete design of 35GHz, 200kW gyrotron for various material processing and heating applications is presented in this article. The components of the device, such as Magnetron Injection Gun, interaction cavity, collector and RF window, are designed for the TE03 mode. Various in-house developed codes (GCOMS, MIGSYN and MIGANS) and commercially available codes (MAGIC, EGUN and CST-MS) are used for the design purpose. A thorough sensitivity analysis of the gyrotron components is also carried out. The designed device shows the capability to generate more than 200kW of output power with more than 40% of e-ciency.

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